CN208291112U - For adjusting executing agency, display terminal component and the vehicle of display terminal - Google Patents

Abstract

Executing agency, display terminal component and the vehicle that the utility model discloses a kind of for adjusting display terminal, it is described for adjusting the executing agency of display terminal, comprising: power source；Driving mechanism, the driving mechanism are connected with the power source, and the driving mechanism is connect to drive the display terminal eccentric rotary with display terminal.According to the utility model embodiment for adjusting the executing agency of display terminal, display terminal eccentric rotary is driven by driving mechanism, thus, the switching of the transverse screen and vertical screen of display terminal can be achieved, and during display terminal rotation, the geometric center of display terminal is gradually changed, display terminal realizes the rotation of change center, display terminal is adjusted to occupant desired position, convenient for meeting the use demand of different occupants, the practicability of display terminal is improved.

Description

For adjusting executing agency, display terminal component and the vehicle of display terminal

Technical field

The utility model belongs to technical field of vehicle manufacture, in particular to a kind of for adjusting holding for display terminal Row mechanism, the display terminal component with the executing agency and the vehicle with the display terminal component.

Background technique

As requirement of the Hyundai Motor in entertainment orientation, intelligence is continuously improved and mobile device becomes increasingly popular, make Function, the form of vehicle mounted multimedia is increasingly rich, can with mobile phone, computer interconnection or can be connect with internet it is multi-functional, Large scale display terminal has become the main trend of future development.But the fixed form of current vehicle-mounted display terminal is mostly with transverse screen Or the single-mode of vertical screen is directly fixed on instrument desk.This form is in images resources such as picture and the videos for facing different size When can not achieve equal proportion, full screen display, while can not take into account different occupants personal use habit, in the related technology, Disclosed some rotary vehicle-mounted display terminal limited range of rotation, the visual field are easily blocked when turning to portion, and be difficult to It takes into account major-minor and drives use demand to display terminal, there are improved spaces.

Utility model content

The utility model aims to solve at least one of the technical problems existing in the prior art.For this purpose, the utility model mentions A kind of for adjusting the executing agency of display terminal out, the executing agency can realize that manually or automatically adjusting display terminal turns It is dynamic.

According to the utility model embodiment for adjusting the executing agency of display terminal, comprising: power source；Driving machine Structure, the driving mechanism are connected with the power source, and the driving mechanism is connect to drive the display terminal with display terminal Eccentric rotary.

According to the utility model embodiment for adjusting the executing agency of display terminal, is driven and shown by driving mechanism Terminal eccentric rotary, thus, it can be achieved that the switching of the transverse screen and vertical screen of display terminal, and during display terminal rotation, The geometric center of display terminal gradually changes, and display terminal realizes the rotation of change center, and display terminal is adjusted to needed for occupant Position improve the practicability of display terminal convenient for meeting the use demand of different occupants.

According to the utility model one embodiment for adjusting the executing agency of display terminal, in the display terminal The heart center deviation initial with the display terminal during rotation.

According to the utility model one embodiment for adjusting the executing agency of display terminal, the driving mechanism includes Rotary shaft, the axis of the output end of the rotary shaft are not overlapped with the axis of the input terminal of the rotary shaft.

According to the utility model one embodiment for adjusting the executing agency of display terminal, the driving mechanism packet Include: sliding equipment and rotating mechanism, the sliding equipment are connect with the display terminal, and the power source is for passing through the rotation Rotation mechanism drives the display terminal rotation and the sliding equipment links so that the display in display terminal rotation Terminal is mobile.

According to the utility model one embodiment for adjusting the executing agency of display terminal, the sliding equipment includes The first sliding part and the second sliding part that can be slided relatively, first sliding part are connected with display terminal, the rotating mechanism Output end be connected with second sliding part, and drive first sliding part and described the in rotating mechanism work Two sliding parts are opposite to be slided.

According to the utility model one embodiment for adjusting the executing agency of display terminal, further includes: guide part and Locating part, the guide part and first sliding part are relatively fixed, and the locating part is relative to the fixed dress of the rotating mechanism Match, the guide part relatively rotates with the locating part and movably cooperates, described in the driving in rotating mechanism work First sliding part and the opposite sliding of second sliding part.

According to the utility model one embodiment for adjusting the executing agency of display terminal, executing agency's setting At in rotating mechanism work, the sliding equipment and the guide part are rotated, and the locating part is led relative to described It is rolled to part, so that first sliding part and the opposite sliding of second sliding part.

According to the utility model one embodiment for adjusting the executing agency of display terminal, executing agency's setting At in rotating mechanism work, length direction of the guide part relative to the locating part along the guide part is moved, And the guide part is rotated around the locating part.

According to the utility model one embodiment for adjusting the executing agency of display terminal, executing agency's setting At in rotating mechanism work, the center of the guide part is mobile.

According to the utility model one embodiment for adjusting the executing agency of display terminal, further includes:

First support, the first support for installing display terminal, first sliding part and the guide part with The first support is connected；Second support, the second support are connected with second sliding part, the output of the rotating mechanism End is connected with the second support；Third bracket, the rotating mechanism is installed on the third bracket, and the third bracket is used In being fixedly connected with the vehicle body.

According to the utility model one embodiment for adjusting the executing agency of display terminal, further includes: fixing axle, institute Fixing axle is stated relative to car body fixing assembling, the locating part is fixedly connected with the fixing axle.

According to the utility model one embodiment for adjusting the executing agency of display terminal, the rotating mechanism has Along axially through the first avoid holes, the fixing axle penetrates through first avoid holes.

According to the utility model one embodiment for adjusting the executing agency of display terminal, the guide part includes tooth Item, the locating part include gear, and the rack gear is engaged with the gear.

According to the utility model one embodiment for adjusting the executing agency of display terminal, the axis of the gear with The axis of the output end of the rotating mechanism is overlapped, and the rack gear is parallel with the glide direction of the sliding equipment.

According to the utility model one embodiment for adjusting the executing agency of display terminal, further includes: fixing axle and Axial limiting part, the fixing axle are fixedly connected relative to car body fixing assembling, the gear with the fixing axle, the fixation Axis includes the light bar segment being sequentially connected, circumferential limit section and axial limiting section, and the light bar segment is relative to car body fixing assembling, institute An end face for stating gear is sheathed on the circumferential limit section and compresses the end face of the light bar segment, the axial limiting part and institute State another end face that axial limiting section is connected and compresses the gear.

According to the utility model one embodiment for adjusting the executing agency of display terminal, the guide part includes leading To plate, the guide plate has guide groove, and the locating part includes spacer pin, and the spacer pin is pivotly slided with the guide groove Cooperation, the axis of the spacer pin and the axis parallel interval of the output end of the rotating mechanism are opened.

According to the utility model one embodiment for adjusting the executing agency of display terminal, the guide plate is around described Extending direction of the spacer pin relative to the guide groove along the guide groove slides when the axis rotation of the output end of rotating mechanism.

According to the utility model one embodiment for adjusting the executing agency of display terminal, the extension side of the guide groove To vertical with the glide direction of the sliding equipment.

According to the utility model one embodiment for adjusting the executing agency of display terminal, further includes: fixing axle, institute Fixing axle is stated relative to car body fixing assembling, and the axis weight of the output end of the axis of the fixing axle and the rotating mechanism It closes, the locating part further includes driving lever, and the driving lever is fixedly connected with the fixing axle, the spacer pin and the driving lever phase Even.

The utility model also proposed a kind of display terminal component.

The display terminal component according to the utility model embodiment, including display terminal and any of the above-described kind of embodiment The executing agency.

The display terminal component according to the utility model embodiment, the company of the driving mechanism and the display terminal Connect the non-center position that position is located at the display terminal.

The display terminal component according to the utility model embodiment, the display terminal is in initial position and target position Lower edge when setting is concordant.

The utility model has also been proposed a kind of vehicle.

According to the vehicle of the utility model embodiment, comprising: execution described in display terminal and any of the above-described kind of embodiment Mechanism.

Possessed advantage is identical compared with the existing technology for the display terminal component, vehicle and above-mentioned executing agency, Details are not described herein.

The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description In become obvious, or recognized by the practice of the utility model.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 is the explosive view according to the executing agency of the utility model one embodiment；

Fig. 2 is the sectional view according to the executing agency of the utility model one embodiment；

Fig. 3 is the structural schematic diagram of the fixing axle and gear according to the executing agency of the utility model one embodiment；

Fig. 4 is the structural schematic diagram according to the rotating mechanism of the executing agency of the utility model one embodiment；

Fig. 5 is the structural representation according to the rotating disc of the rotating mechanism of the executing agency of the utility model one embodiment Figure；

Fig. 6 is the rearview according to the executing agency of the utility model one embodiment；

Fig. 7 is to adjust schematic diagram according to the position of the display terminal of the executing agency of the utility model one embodiment.

Fig. 8 is the explosive view according to the executing agency of the utility model another embodiment；

Fig. 9 is the sectional view according to the executing agency of the utility model another embodiment；

Figure 10 is the structural schematic diagram of the fixing axle and driving lever according to the executing agency of the utility model another embodiment；

Figure 11 is the structural schematic diagram according to the guide plate of the executing agency of the utility model another embodiment；

Figure 12 is the structural schematic diagram according to the driving lever of the executing agency of the utility model another embodiment；

Figure 13 is to be in initial position according to the driving lever and guide plate of the executing agency of the utility model another embodiment Structural schematic diagram；

Figure 14 is in an intermediate position according to the driving lever and guide plate of the executing agency of the utility model another embodiment Structural schematic diagram；

Figure 15 is to be in target position according to the driving lever and guide plate of the executing agency of the utility model another embodiment Structural schematic diagram；

Figure 16 is connected according to the rotary shaft of the executing agency of some embodiments of the utility model, driving unit and display terminal The structural schematic diagram connect.

Appended drawing reference:

Executing agency 100,

Display terminal 1, first support 2, sliding equipment 3, the first sliding part 31, the second sliding part 32,

Second support 4, the second avoid holes 41, fixing axle 5, light bar segment 51 are circumferential to limit section 52, axial limiting section 53, axis To locating part 54, ring flange 55, mounting hole 61, locating part 62, guide part 63, gear 62a, rack gear 63a, spacer pin 62b, guiding Plate 63b,

Rotating mechanism 7, rotating disc 71, limited post 711, clutch unit 72, the first joint portion 73, the second joint portion 74 are driven Moving cell 75, power source 75a, retarder 75b, level-one active worm screw 75c, the driven spur gear 75d of level-one, second level active worm screw 75e, the driven spur gear 75f of second level, elastomer 76, body 77a, casing upper cover 77b, rear chassis 77c, the first positive stop lug boss 77d, the second positive stop lug boss 77e, installation axle 78, rotary shaft 79, third bracket 8.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and should not be understood as to the utility model Limitation.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " suitable The orientation or positional relationship of the instructions such as hour hands ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " is orientation based on the figure Or positional relationship, be merely for convenience of describing the present invention and simplifying the description, rather than the device of indication or suggestion meaning or Element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as the limit to the utility model System.In addition, defining " first ", the feature of " second " can explicitly or implicitly include one or more of the features. In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

Below with reference to Fig. 1-Figure 15 description according to the utility model embodiment for adjusting the executing agency of display terminal 1 100, the executing agency 100 is for adjusting angle locating for display terminal 1, for example, making display terminal 1 between transverse screen and vertical screen Switching, or is adjusted to other positions for display terminal 1, wherein display terminal 1 can be touch screen curtain, and display terminal 1 can also be with For the display panel etc. for being installed on instrument desk pipe beam.

As shown in Fig. 1-Figure 15, according to the utility model one embodiment for adjusting the executing agency of display terminal 1 100 include: power source, guide part 63, locating part 62, driving mechanism.

Power source 75a is used to provide the driving power that display terminal 1 moves, and driving mechanism is connected with power source 75a, drives Mechanism with display terminal 1 for connecting, and driving mechanism is suitable for driving display terminal 1 and rotates, to realize the angle of display terminal 1 It adjusts.

Driving mechanism includes rotary shaft, and the axis of the input terminal of the axis and rotary shaft of the output end of rotary shaft is not overlapped.

In some embodiments, as shown in figure 16, the extending direction of rotary shaft 79 and the pivot center of rotary shaft 79 are mutually The extending direction of acute angle (θ in such as Figure 16), rotary shaft 79 can be the length direction of rotary shaft 79 or the axis of rotary shaft 79 Direction where line.

In some embodiments, rotary shaft includes at least angled therebetween two sections, for example, two sections of axis of rotary shaft Angle is that the angle of acute angle perhaps two sections of axis of rotary shaft is that the mutual of two sections of axis of obtuse angle or rotary shaft is hung down Directly, in one embodiment, rotary shaft includes first segment, second segment, and first segment is connected with second segment, and first segment deviates from second segment One end be rotary shaft input terminal, second segment away from first segment one end be rotary shaft output end, second segment deviate from first One end of section is connected with display terminal 1, and during rotary shaft rotates, second segment around first segment axis rotation, i.e., the Two sections of one end away from first segment are rotated around the axis of first segment, and display terminal 1 is rotated around the axis of first segment as a result, and aobvious Show that the geometric center of terminal 1 gradually moves in the course of rotation, and then realize the change center rotating of display terminal 1, is convenient for Display terminal 1 is adjusted to desired position by occupant.

In further embodiments, rotary shaft includes two sections that parallel interval is opened, and in one embodiment, rotary shaft includes First segment, second segment.Or can also be connected by other sections between first segment, second segment, for example, rotary shaft includes first Section, second segment and third section, rotary shaft are rotated around the axis of first segment, and first segment is connected so that the by third section with second segment One section of axis and the axis parallel interval of second segment are opened, and the axis of third section can be vertical or at an acute angle with the axis of first segment Or obtuse angle, first segment are connected with the power section of driving mechanism, i.e., when rotary shaft rotates, second segment and third Duan Jun are around first segment Axis rotation, wherein second segment is connected with display terminal 1, in this way, second segment drive display terminal 1 while around first segment Axis rotation, the geometric center of display terminal 1 gradually move in the course of rotation, and display terminal 1 realizes change center as a result, Rotation, convenient for from horizontal screen switching to vertical screen, the geometric center movement of display terminal 1 can facilitate driver and pair by display terminal 1 Driving is checked and is used.

In some embodiments, driving mechanism includes sliding equipment 3 and rotating mechanism 7, and sliding equipment 3 is used for display eventually End 1 connects so that display terminal 1 is mobile, and power source 75a is used to drive display terminal 1 to rotate by rotating mechanism 7, power source 75a is used to drive the rotation of display terminal 1 by rotating mechanism 7 and when display terminal 1 rotates, sliding equipment 3 links, skate machine Structure 3 and rotating mechanism 7 are not self-movement, the torque that the movement of sliding equipment 3 is exported dependent on rotating mechanism 7, power source 75a It can be integrated in rotating mechanism 7, power source 75a can provide driving force to rotating mechanism 7, be easily installed, while can less power biography Pass loss.

Sliding equipment 3 is for realizing the position for adjusting display terminal 1, so that display terminal 1 is such as schemed relative to body movement Shown in 2, sliding equipment 3 includes the first sliding part 31 and the second sliding part 32, and the first sliding part 31 and the second sliding part 32 can phases To sliding, in the embodiment shown in Figure 2, the first sliding part 31 includes sliding rail, and the second sliding part 32 includes sliding slot, the first sliding Portion 31 can be slidably matched with the second sliding part 32 by sliding rail, sliding slot, and the first sliding part 31 is connected with display terminal 1, for example, the One sliding part 31 and display terminal 1 are relatively fixed, i.e., the first sliding part 31 is moved synchronously with display terminal 1, such first sliding When portion 31 is slided relative to the second sliding part 32, display terminal 1 and the second sliding part 32 slide relatively, as a result, 1 phase of display terminal While for the sliding of the second sliding part 32, display terminal 1 is easy to implement the position tune of display terminal 1 relative to body movement Section.

As Figure 1-Figure 2, guide part 63 and the first sliding part 31 are relatively fixed, for example, guide part 63 and the first sliding Portion 31 is directly fixed, and guide part 63 can be connected with the first sliding part 31 by threaded fastener or guide part 63 and first slides Portion 31 is both secured in the same part, in this way, while guide part 63 moves, the first sliding part 31 fortune synchronous with guide part 63 Dynamic, display terminal 1 is moved synchronously with guide part 63 with the first sliding part 31 as a result, and then realizes the position tune of display terminal 1 Section.

Locating part 62 is relative to 7 fixing assembling of rotating mechanism, and locating part 62 is relative to car body fixing assembling, for example, limit Part 62 is installed on the instrument desk pipe beam of car body or locating part 62 is installed on car body by other component, so that locating part 62 and vehicle Body is relatively fixed, and guide part 63 cooperates with 62 relative rolling of locating part, i.e., guide part 63 and locating part 62 relatively rotate and Movably cooperate, to drive the first sliding part 31 and the opposite sliding of the second sliding part 32 when rotating mechanism works, needs to illustrate , when guide part 63 and the first sliding part 31 and display terminal 1 move synchronously, guide part 63 connects with the stabilization of locating part 62 always Touch and relative motion, in this way, guide part 63 is in the process of movement, guide part 63 with there are phase interactions at 62 contact point of locating part Firmly, so that guide part 63 can be easy to implement the rotation of display terminal 1 with 62 relative motion of locating part.

As Figure 1-Figure 2, rotating mechanism 7 is for driving display terminal 1 to rotate, in order to realize that rotating mechanism 7 drives Display terminal 1 switches between transverse screen or vertical screen, and rotating mechanism 7 is adapted to be mounted to car body, and the output end of rotating mechanism 7 and Two sliding parts 32 are connected, and the output end of rotating mechanism 7 can drive the second sliding part 32 to rotate, i.e. the driving force of output shaft output can The second sliding part 32 is driven to rotate, while the second sliding part 32 is connected with the first sliding part 31, thus the first sliding part 31 and shows Show that terminal 1 rotates simultaneously with the second sliding part 32, first sliding of driving when rotating mechanism 7 works of the output end of rotating mechanism 7 Portion 31 and the opposite sliding of the second sliding part 32, and then realize that the rotation of display terminal 1 is adjusted.

Executing agency is arranged to when rotating mechanism 7 works, and sliding equipment 3 rotates, and guide part 63 is rolled along locating part 62 It moves so that the first sliding part 31 and the opposite sliding of the second sliding part 32, i.e., phase while guide part 63 and locating part 62 relatively move To rotation, in other words, rotating mechanism 7 can be driven indirectly by the cooperation of guide part 63 and locating part 62 second sliding part 32 and First sliding part 31 rotation, during the second sliding part 32 and the rotation of the first sliding part 31, as shown in Figure 1, being installed on the The guide part 63 of two sliding parts 32 is contacted with locating part 62 always, and guide part 63 and the first sliding part 31 rotate synchronously, and are oriented to Part 63 with 62 contact point of locating part at give locating part 62 apply active force, it is to be understood that locating part 62 is opposite with car body Fixed, i.e., the position of locating part 62 and state are constant.

Locating part 62 drives the first sliding part 31 and the second sliding part 32 relatively sliding the reaction force of guide part 63 as a result, Dynamic, locating part 62 and the second sliding part 32 are opposing stationary, and locating part 62 slides guide part 63 and first power of guide part 63 Dynamic portion 31 is slided relative to the second sliding part 32 simultaneously, i.e. the first sliding part 31 and display terminal 1 with 32 phase of the second sliding part To sliding, realize that the position of display terminal 1 is adjusted.

In this motion process, the second sliding part 32, display terminal 1 and the first sliding part 31 are driven by rotating mechanism 7 Rotation, the rotation center of the second sliding part 32 is constant always, but the first sliding part 31 rotation it is aroused in interest with the second sliding part 32 Gradually change during opposite sliding, i.e. display terminal 1 and the geometric center of the first sliding part 31 changes, in turn Realize the change center rotation of display terminal 1, the integral structure layout of executing agency 100 is reasonable, functional, has real well The property used.

Executing agency 100 is arranged to when rotating mechanism 7 works, and guide part 63 is relative to locating part 62 along guide part 63 Length direction is mobile, and guide part 63 is rotated around locating part 62, i.e., guide part 63 and locating part 62 are opposite slides, while guide part 63 relatively rotate with locating part 62, and the first sliding part 31, the second sliding part 32 are rotated relative to car body as a result, while first is sliding Dynamic portion 31 is easy to implement the switching of the transverse screen and vertical screen of display terminal 1 relative to the opposite sliding of the second sliding part 32.

Executing agency 100 is arranged to when rotating mechanism 7 works, and the center of guide part 63 is mobile, i.e., guide part 63 is opposite During locating part 62 moves, the center of guide part 63 gradually changes, and the first sliding part 31, display terminal 1 is several What center changes, and the center of display terminal 1 center deviation initial with display terminal 1 during rotation, shows as a result, Show that terminal 1 can realize that change center rotates, display terminal 1 is adjusted to desired position convenient for occupant, realizes the cross of display terminal 1 The switching of screen and vertical screen promotes user experience.

According to the utility model embodiment for adjusting the executing agency 100 of display terminal 1, driven by rotating mechanism 7 Dynamic display terminal 1, the first sliding part 31 and the second sliding part 32 are rotated relative to car body, and in display terminal 1, the first sliding part 31 and second sliding part 32 rotate during, guide part 63 contacts always with locating part 62, guide part 63 and locating part 62 it Between interaction force can drive the first sliding part 31 and the opposite sliding of the second sliding part 32, thus, it can be achieved that display terminal 1 The switching of transverse screen and vertical screen, and during display terminal 1 rotates, the geometric center of the first sliding part 31 and display terminal 1 It gradually changes, display terminal 1 realizes the rotation of change center, display terminal 1 is adjusted to occupant desired position, convenient for meeting not With the use demand of occupant, the practicability of display terminal 1 is improved.

As shown in Fig. 1-Fig. 7, in some embodiments, guide part 63 includes rack gear 63a, and locating part 62 includes gear 62a, Rack gear 63a is engaged with gear 62a, and guide part 63 and locating part 62 can be achieved by the cooperation of rack gear 63a and gear 62a as a result, Between rotation with displacement Planar Compound move, be easy to implement the change center rotating of display terminal 1.

As shown in Fig. 1-Fig. 7, executing agency 100 includes: sliding equipment 3, rack gear 63a, gear 62a, rotating mechanism 7.

Sliding equipment 3 is for realizing the position for adjusting display terminal 1, so that display terminal 1 is such as schemed relative to body movement Shown in 2, sliding equipment 3 includes the first sliding part 31 and the second sliding part 32, and the first sliding part 31 and the second sliding part 32 can phases To sliding, in the embodiment shown in Figure 2, the first sliding part 31 includes sliding rail, and the second sliding part 32 includes sliding slot, the first sliding Portion 31 can be slidably matched with the second sliding part 32 by sliding rail, sliding slot, and the first sliding part 31 is connected with display terminal 1, for example, the One sliding part 31 and display terminal 1 are relatively fixed, i.e., the first sliding part 31 is moved synchronously with display terminal 1, such first sliding When portion 31 is slided relative to the second sliding part 32, display terminal 1 and the second sliding part 32 slide relatively, as a result, 1 phase of display terminal While for the sliding of the second sliding part 32, display terminal 1 is easy to implement the position tune of display terminal 1 relative to body movement Section.

As Figure 1-Figure 2, rack gear 63a and the first sliding part 31 are relatively fixed, for example, rack gear 63a and the first sliding part 31 is directly fixed, and rack gear 63a can be connected with the first sliding part 31 by threaded fastener or rack gear 63a and the first sliding part 31 It is both secured in the same part, in this way, the first sliding part 31 is moved synchronously with rack gear 63a, as a result, while rack gear 63a is moved Display terminal 1 is moved synchronously with rack gear 63a with the first sliding part 31, and then realizes that the position of display terminal 1 is adjusted.

In one embodiment, as Figure 1-Figure 2, the glide direction of the extending direction of rack gear 63a and sliding equipment 3 is flat Row, i.e. rack gear 63a are arranged in parallel with the first sliding part 31, the second sliding part 32, the first sliding part 31 and 32 phase of the second sliding part When to sliding, rack gear 63a is synchronous with the first sliding part 31, moves in the same direction, convenient for the installation of rack gear 63a and sliding equipment 3, prevents Rack gear 63a and the first sliding part 31 are interfered, so that display terminal 1 is with the second sliding part 32, opposite sliding is easily achieved, and are executed The motion structure of mechanism 100 is more reasonable.

Gear 62a is relative to car body fixing assembling, for example, rack gear 63a is installed on the instrument desk pipe beam or gear of car body 62a is installed on car body by other component, so that gear 62a and car body are relatively fixed, and gear 62a is engaged with rack gear 63a, needs It is noted that rack gear 63a is steady with gear 62a always when rack gear 63a and the first sliding part 31 and display terminal 1 move synchronously Fixed engagement, in this way, rack gear 63a is in the process of movement, there are engagement force, teeth at meshing point between rack gear 63a and gear 62a 63a is advantageously implemented the rotation of display terminal 1 relative to gear 62a axis rotation.

As Figure 1-Figure 2, rotating mechanism 7 is for driving display terminal 1 to rotate, and rack gear 63 is rotated around rotation axis and tooth Item 63 is often engaged with gear 62, in order to realize that rotating mechanism 7 drives display terminal 1 to switch between transverse screen or vertical screen, is rotated Mechanism 7 is adapted to be mounted to car body, and the output end of rotating mechanism 7 is connected with the second sliding part 32, and the output end of rotating mechanism 7 can The second sliding part 32 is driven to rotate, i.e. the driving force of output shaft output can drive the second sliding part 32 to rotate, while the second sliding Portion 32 is connected with the first sliding part 31, and thus the first sliding part 31 and display terminal 1 rotate simultaneously with the second sliding part 32, in turn Realize that the rotation of display terminal 1 is adjusted.

Executing agency 100 is arranged to when rotating mechanism 7 works, and sliding equipment 3 rotates, and rack gear 63a turns along gear 62a It moves so that the first sliding part 31 and the opposite sliding of the second sliding part 32, in other words, rotating mechanism 7 can pass through rack gear 63a and tooth The cooperation of wheel 62a drives the second sliding part 32 and the first sliding part 31 to rotate indirectly, in the second sliding part 32 and the first sliding part During 31 rotations, as shown in Figure 1, the rack gear 63a for being installed on the first sliding part 31 is engaged with gear 62a always, rack gear 63a With the first sliding part 31 rotate synchronously, and rack gear 63a with gear 62a meshing point at give gear 62a apply active force, Ke Yili Solution, gear 62a and car body are relatively fixed, i.e., the position of gear 62a and state are constant, and gear 62a is to rack gear 63a as a result, Reaction force drive the first sliding part 31 is opposite with the second sliding part 32 to slide, rack gear 63a and the first sliding part 31 are relatively quiet Only, gear 62a slides rack gear 63a and the first sliding part 31 relative to the second sliding part 32 simultaneously the power of rack gear 63a, i.e., First sliding part 31 and display terminal 1 realize that the position of display terminal 1 is adjusted with the opposite sliding of the second sliding part 32.

In this motion process, the second sliding part 32, display terminal 1 and the first sliding part 31 are driven by rotating mechanism 7 Rotation, the rotation center of the second sliding part 32 is constant always, and the geometric center of the second sliding part 32 is only rotated around rotation center, But the geometric center of the first sliding part 31 is other than around rotation center rotation, opposite in the first sliding part 31 and the second sliding part 32 Geometric center also translates during sliding, realizes compound motion, i.e., in the geometry of display terminal 1 and the first sliding part 31 The heart moves, i.e., the geometric center of display terminal 1 is not fixed, and then realizes the change center rotation of display terminal 1, holds The integral structure layout of row mechanism 100 is reasonable, functional, has good practicability.

According to the utility model embodiment for adjusting the executing agency 100 of display terminal 1, driven by rotating mechanism 7 Dynamic display terminal 1, the first sliding part 31 and the second sliding part 32 are rotated relative to car body, and in display terminal 1, the first sliding part 31 and second sliding part 32 rotate during, rack gear 63a is engaged always with gear 62a, between rack gear 63a and gear 62a Interaction force can drive the first sliding part 31 and the opposite sliding of the second sliding part 32, thus, it can be achieved that the transverse screen of display terminal 1 With the switching of vertical screen, and display terminal 1 rotate during, the geometric center of the first sliding part 31 and display terminal 1 is gradually Variation, display terminal 1 realize the rotation of change center, display terminal 1 are adjusted to occupant desired position, is multiplied convenient for meeting difference The use demand of member improves the practicability of display terminal 1.

According to the utility model embodiment for adjusting the executing agency 100 of display terminal 1, as Figure 1-Figure 2, tooth The axis of wheel 62a is overlapped with the axis of the output shaft of rotating mechanism 7, and gear 62a can be co-axially mounted with rotating mechanism 7 as a result, be subtracted Few installation procedure, convenient for the installation of gear 62a and rotating mechanism 7, and the rotation center of the first sliding part 31 is located at gear 62a's On axis, the rotation center of the second sliding part 32 is located on the axis of the output shaft of rotating mechanism 7, and gear 62a is nibbled with rack gear 63a It closes, the geometric center of rack gear 63a changes with the variation of meshing point, the drive force first exported convenient for rotating mechanism 7 Sliding part 31, the second sliding part 32 and display terminal 1 rotate, and reduce the power consumption of rotating mechanism 7, improve rotating mechanism 7 and second Transmission efficiency between sliding part 32 realizes the change center rotation of display terminal, and gear 62a and the output shaft of rotating mechanism 7 are same Axis setting, is conducive to the integral arrangement of executing agency 100, so that all parts install compact of executing agency 100, subtracts Small 100 the space occupied of executing agency.

As shown in fig. 6, the axis of the output end of rotating mechanism 7 is spaced apart with the geometric center of display terminal 1, i.e. whirler Structure 7 is relative to 1 setoff installation of display terminal.Rotating mechanism 7 is for driving display terminal 1 to turn to target position from initial position It sets, for example, display terminal 1 is in vertical screen in initial position, transverse screen is at target position.

For example, in 1 vertical screen of display terminal, the rotation center of display terminal 1 is located at whirler in one embodiment On the axis of the output end of structure 7, the rotation center of display terminal 1 is located at the lower section of the geometric center of display terminal 1, and rack gear 63 In the left of gear 62, the meshing point of gear 62 and rack gear 63 is located at the left of the axis of the output end of rotating mechanism 7, as a result, Display terminal 1 is from initial position to during the rotation of target position, the rotation of the geometric center of display terminal 1 around display terminal 1 Turn center to turn left, i.e. the position of the geometric center of display terminal 1 gradually changes.

In the process, rack gear 63 and 62 relative motion of gear, rack gear 63 are rotated down around gear 62, when rack gear 63 and are shown Show terminal 1 after 90 ° of rotation center rotation, the meshing point of rack gear 63 and gear 62 is located at the axis of the output end of rotating mechanism 7 Lower section, rack gear 63 is located at the lower section of gear 62, and the geometric center of rack gear 63 is moved to gear 62 from the left of gear 62 as a result, Lower section, i.e., the geometric center of rack gear 63 realize downwards, move right, and display terminal 1 and rack gear 63 are in the course of rotation It is opposing stationary, that is to say, that the geometric center of rack gear 63 and display terminal 1 is downward, moves right.

In this way, display terminal 1 realizes the switching of vertical screen to transverse screen, and during rotation, the geometric center of display terminal 1 Position gradually change, i.e., display terminal 1, which is realized, becomes center rotating, realizes the relative rotation of display terminal 1 and car body simultaneously Relative movement enhances the practicability of display terminal 1 convenient for being adjusted to display terminal 1 close to main driving position or co-driver.

In some embodiments, geometric center and display terminal 1 of the display terminal 1 in initial position are at target position Geometric center be located at same vertical line, for example, when display terminal 1 is in vertical screen state, the geometric center of display terminal 1 can be with Among driver's cabin and copilot room, when display terminal 1 by vertical screen state motion to transverse screen state after, display terminal 1 it is several What center can still be located among driver's cabin and copilot room, when display terminal 1 is transverse screen state, display terminal 1 it is several What center can be located among driver and copilot, after display terminal 1 arrives vertical screen state by transverse screen state motion, display end The geometric center at end 1 can still be located among driver and copilot, in this way, the position of display terminal 1 after exercise all may be used To be located at the centre of user at positive copilot, facilitates the user at positive copilot while checking and using, and display terminal 1 will not Geometric center is moved horizontally because position adjusts, and then be interfered display terminal 1 will not and be arranged in 1 left side of display terminal Arrangement, installation and the use of the component of right two sides, the position for reducing display terminal 1 adjust the space occupied, convenient for interior whole The design of structure improves the reasonability of the design of executing agency 100.

In one embodiment, as shown in fig. 7, display terminal 1 is concordant with lower edge when target position in initial position, In this way, the lower part of display terminal 1 does not interfere the arrangement and installation of other component when display terminal 1 is in transverse screen or vertical screen, The position for reducing display terminal 1 adjusts the space occupied, convenient for interior integrally-built design, improves setting for executing agency 100 The reasonability of meter.

In some embodiments, as Figure 1-Figure 2, executing agency 100 further includes fixing axle 5, and fixing axle 5 is relative to vehicle Body fixing assembling, gear 62a are fixedly connected with fixing axle 5, in this way, gear 62a, fixing axle 5 are connected as one with car body, so that Gear 62a, fixing axle 5 are relatively fixed with car body, are easily installed each components of executing agency 100, in the first sliding When portion 31, the second sliding part 32 and display terminal 1 rotate, gear 62a can steadily support the active force of rack gear 63a, be convenient for The first sliding part 31 and the opposite sliding of the second sliding part 32 are driven, realizes the rotation of display terminal 1, it as a result, will by fixing axle 5 Gear 62a is stably fixed to car body, is easy to implement the opposite sliding of the first sliding part 31 and the second sliding part 32, and then realizes The on-fixed center rotating of display terminal 1 is conducive to the practicability for improving executing agency 100.

As shown in Fig. 2-Fig. 3, executing agency 100 further includes axial limiting part 54, and fixing axle 5 includes the polished rod being sequentially connected One end of section 51, circumferential limit section 52 and axial limiting section 53, i.e., circumferential limit section 52 is connected with light bar segment 51, circumferential to limit section 52 other end is connected with axial limiting section 53, and light bar segment 51 is relative to car body fixing assembling, for example, light bar segment 51 is away from circumferential Limit the end of section 52 is axially arranged with ring flange 55, and ring flange 55 is equipped with multiple threaded holes, and ring flange 55 can pass through with car body Threaded fastener is connected or ring flange 55 is connected with other component is fixed on car body jointly, convenient for fixing axle 5 to be integrally fastened to Car body, and then gear 62a is fixed on car body by fixing axle 5, so that the installation of executing agency 100 is more stable.

As shown in Fig. 2, gear 62a is sheathed on circumferential limit section 52, the circumferential section 52 that limits can carry out circumferential limit to gear 62a Position, i.e. gear 62a and fixing axle 5 are without relative rotation, and an end face of gear 62a compresses the end face of light bar segment 51, axial to limit Position part 54 is connected with axial limiting section 53, and axial limiting part 54 compresses another end face of gear 62a, in this way, gear 62a Two end faces press on light bar segment 51, axial limiting part 54 respectively, wherein and axial limiting part 54 and axial limiting section 53 cooperate, And then gear 62a is stably fixed to circumferential limit section 52, so that gear 62a is with fixing axle 5 along axial, circumferentially opposed solid It is fixed, convenient for realizing the opposite sliding of the first sliding part 31 and the second sliding part 32 by gear 62a, guarantee 100 knot of executing agency Structure is stablized.

Wherein, as shown in figure 3, circumferential limit section 52 has polygonal crosssection, i.e., the periphery wall of circumferential limit section 52 can For polygon prism or more terrace with edges, gear 62a has a mounting hole 61, and mounting hole 61 is along axially through and mounting hole 61 has polygon Cross section, mounting hole 61 are sheathed on circumferential limit section 52, mounting hole 61 be suitable for cooperating with circumferential limit section 52 so that gear 62a with Fixing axle 5 is circumferentially relatively fixed, it should be noted that as shown in figure 3, light bar segment 51, circumferential limit section 52 and axial limiting The diameter of section 53 is sequentially reduced, i.e., the diameter of circumferential limit section 52 is less than light bar segment 51, and the diameter of axial limiting section 53 is less than week To limit section 52, and the diameter of mounting hole 61 is greater than axial limiting section 53, and the diameter of mounting hole 61 is less than light bar segment 51, in this way, Gear 62a is penetrated from axial limiting section 53, and then is installed on circumferential limit section 52, and axial limiting part 54 is from axial limiting section 53 One end away from circumferential limit section 52 is packed into, and then gear 62a is fixed between axial limiting section 53 and light bar segment 51, is realized Gear 62a it is fixed, be easily installed, dismantle.

As shown in figure 3, axial limiting section 53 be external thread section, axial limiting part 54 include nut, as a result, gear 62a from After axial limiting section 53 is packed into, nut is screwed into loading away from one end of circumferential limit section 52 from axial limiting section 53, nut can Gear 62a and fixing axle 5 are axially fixed, prevents gear 62a from deviating from from circumferential limit section 52, avoids gear 62a and fixation Axis 5 relatively rotates the effect that engages for influencing gear 62a and rack gear 63a, and then guarantees the stability and safety of executing agency 100 Property, it is easy to implement the opposite sliding of display terminal 1 and the first sliding part 31.

Rotating mechanism 7 has the first avoid holes, and the first avoid holes penetrate through the first avoid holes along axially through, fixing axle 5, by This, is installed on fixing axle 5 for rotating mechanism 7, and then be installed on car body, so that rotating mechanism 7 and the connection of fixing axle 5 more step up It gathers, saves installation space, convenient for the integral layout of executing agency 100, reduce the whole occupied space of executing agency 100, promoted The overall performance of executing agency 100.

It is equipped with bearing (not shown) between fixing axle 5 and rotating mechanism 7, i.e., rotating mechanism 7 can be by bearing and solid Dead axle 5 is opposite to be slided, wherein the inner wall of 7 first avoid holes of rotating mechanism is fixedly connected with the outer ring of bearing, outside fixing axle 5 Peripheral wall is fixedly connected with the inner ring of bearing, for example, the periphery wall of light bar segment 51 is fixedly connected with the inner ring of bearing, bearing as a result, Inner ring and outer ring when relatively rotating, rotating mechanism 7 and fixing axle 5 relatively rotate, in this way, rotating mechanism 7 is passed through bearing peace It loaded on fixing axle 5, is easy to implement rotating mechanism 7 and display terminal 1 is driven to rotate, while being easy to implement the first sliding part 31 and display The opposite sliding of terminal 1, the integral layout of executing agency 100 is reasonable, and rotating mechanism 7, fixing axle 5 and the installation of other components are tight It gathers, greatlys improve the space utilization rate of executing agency 100, the friction for reducing rotating mechanism 7 and the relative rotation of fixing axle 5 is damaged It loses, reduces frictional heat generation.

In one embodiment, fixing axle 5 is hollow shaft, i.e. fixing axle 5 has through-hole circumferentially, display terminal 1 route can be passed through from the through-hole of fixing axle 5, be convenient for cabling, the requirement of more applicable whole structure spaces compact, vehicle freight weight limit, The better riding experience of user can also be given simultaneously.

According to the utility model embodiment for adjusting the executing agency 100 of display terminal 1 further include: such as Fig. 1-Fig. 2 It is shown, first support 2, second support 4, third bracket 8.

First support 2 is for installing display terminal 1, and as Figure 1-Figure 2, first support 2 is tabular, first support 2 It is bonded and is connected with display terminal 1 away from the side of the first sliding part 31, have when first support 2 is installed with display terminal 1 as a result, Biggish contact surface improves the stability that display terminal 1 is installed, and the first sliding part 31 is connected with first support 2, the first sliding part 31 can be connected with first support 2 by threaded fastener, for example, the first sliding part 31 is equipped with threaded hole with first support 2, it can Bolt is passed through into threaded hole so that the first sliding part 31 is connected with first support 2, and rack gear 63a is connected with first support 2, rack gear 63a can be connected with first support 2 by threaded fastener, for example rack gear 63a is equipped with the threaded hole being connected with first support 2, just It is relatively fixed in rack gear 63a and first support 2.

In this way, rack gear 63a and the first sliding part 31 are stably fixed to first support 2, and display terminal 1 and first Frame 2 is relatively fixed, and when so that rotating mechanism 7 driving the first sliding part 31, the rotation of the second sliding part 32, first support 2, display are eventually End 1 is rotated synchronously with the first sliding part 31, is stablized thereby it is ensured that installing between all parts of executing agency 100, is fixed and close Reason, integral structure layout is orderly, and the position for being easy to implement display terminal 1 is adjusted, and completes the transverse screen of display terminal 1 and cutting for vertical screen It changes, improves practicability.

As Figure 1-Figure 2, second support 4 is tabular, and second support 4 is connected with the second sliding part 32, such as second Bracket 4 is connected with the second sliding part 32 by threaded fastener, so that second support 4 can be moved synchronously with the second sliding part 32, The output end of rotating mechanism 7 is connected with second support 4, for example the output end and second support 4 of rotating mechanism 7 pass through screw threads for fastening Part is connected, and the drive force second support 4 for being convenient for rotating mechanism 7 to export as a result, rotates, and then realizes first support 2 and show Show that the rotation of terminal 1 is adjusted, completes the switching of the transverse screen and vertical screen of display terminal 1.

Wherein, as Figure 1-Figure 2, second support 4 have the second avoid holes 41, the second avoid holes 41 along axially through, As shown in Fig. 2, fixing axle 5 sequentially penetrates through the first avoid holes, the second avoid holes 41, and fixing axle 5 runs through the first avoid holes, second After avoid holes 41, fixing axle 5 is fixedly linked close to the end of display terminal 1 and gear 62a, in this way, installation or removal is facilitated to hold Row mechanism 100 dramatically saves executing agency so that runing rest, second support 4 are installed more compact with fixing axle 5 100 installation space reduces the whole occupied space of executing agency 100, promotes the practicability of executing agency 100, convenient for executing The installation of mechanism 100 and layout.

Third bracket 8 is the fixation bracket of executing agency 100, and rotating mechanism 7 is installed on third bracket 8, and third bracket 8 For being fixedly connected with the vehicle body, first support 2, second support 4 and the display terminal 1 of executing agency 100 pass through third bracket 8 It is fixed on car body, as Figure 1-Figure 2, third bracket 8 is tabular, and fixing axle 5 is installed on third bracket 8, wherein light bar segment 51 ring flange 55 is bonded with third bracket 8 to be connected, so that rotating mechanism 7 obtains steadily the driving effect of display terminal 1 Support guarantees that rotating mechanism 7 can accurately and effectively drive display terminal 1 to rotate, improves the integrally-built of executing agency 100 Reasonability.

As Figure 1-Figure 2, sliding equipment 3 includes that parallel interval opens up and sets multiple, and multiple sliding equipments 3 can be steadily The opposite sliding for supporting first support 2 and second support 4 guarantees the stability of first support 2 and the opposite sliding of second support 4, And the two sides of rack gear 63a are equipped with sliding equipment 3, i.e., multiple sliding equipments 3 are respectively arranged on the two sides of rack gear 63a, for example, sliding Mechanism 3 includes two, and two sliding equipments 3 are distributed in the two sides of rack gear 63a respectively, in this way, being both convenient for sliding equipment 3, rack gear The integral layout of 63a ensures that first support 2 and second support 4 steadily opposite can be slided, so that executing agency 100 Structure design more rationally, it is reliable.

As shown in Fig. 8-Figure 15, in further embodiments, guide part 63 includes guide plate 63b, and guide plate 63b, which has, to be led Slot 64, locating part 62 include spacer pin 62b, and spacer pin 62b is pivotly slidably matched with guide groove 64, pass through guide plate as a result, The Planar Compound that rotation and displacement between guide part 63 and locating part 62 can be achieved in the cooperation of 63b and spacer pin 62b moves, and is convenient for Realize the change center rotating of display terminal 1.

As shown in Fig. 8-Figure 15, according to the utility model one embodiment for adjusting the executing agency of display terminal 1 100 include: sliding equipment 3, guide plate 63b, spacer pin 62b, rotating mechanism 7.

Sliding equipment 3 is for realizing the position for adjusting display terminal 1, so that display terminal 1 is such as schemed relative to body movement Shown in 9, sliding equipment 3 includes the first sliding part 31 and the second sliding part 32, and the first sliding part 31 and the second sliding part 32 can phases To sliding, in the embodiment shown in fig. 9, the first sliding part 31 includes sliding rail, and the second sliding part 32 includes sliding slot, the first sliding Portion 31 can be slidably matched with the second sliding part 32 by sliding rail, sliding slot, and the first sliding part 31 is connected with display terminal 1, for example, the One sliding part 31 and display terminal 1 are relatively fixed, i.e., the first sliding part 31 is moved synchronously with display terminal 1, such first sliding When portion 31 is slided relative to the second sliding part 32, display terminal 1 and the second sliding part 32 slide relatively, as a result, 1 phase of display terminal While for the sliding of the second sliding part 32, display terminal 1 is easy to implement the position tune of display terminal 1 relative to body movement Section.

As illustrated in figs. 8-9, guide plate 63b and the first sliding part 31 are relatively fixed, for example, guide plate 63b and first is sliding Dynamic portion 31 is directly fixed, and guide plate 63b can be connected with the first sliding part 31 by threaded fastener or guide plate 63b and first Sliding part 31 is both secured in the same part, in this way, the first sliding part 31 and guide plate 63b are same while guide plate 63b is moved Step movement, display terminal 1 is moved synchronously with guide plate 63b with the first sliding part 31 as a result, and then realizes display terminal 1 Position is adjusted.

Spacer pin 62b is relative to car body fixing assembling, for example, spacer pin 62b is installed on the instrument desk pipe beam of car body, or limit Position pin 62b is installed on car body by other component, so that spacer pin 62b and car body are relatively fixed, as shown in figure 11, guide plate 63b has guide groove 64, and spacer pin 62b is pivotly slidably matched with guide groove 64, and spacer pin 62b and guide plate 63b opposite can turn It is dynamic, it should be noted that when guide plate 63b and the first sliding part 31 and display terminal 1 move synchronously, spacer pin 62b is in guide groove Rotation in 64, and spacer pin 62b is slided in guide groove 64 along the extending direction of guide groove 64, in this way, mistake of the guide plate 63b in rotation The position of Cheng Zhong, spacer pin 62b immobilize, the interaction force between 64 inner wall of guide groove and spacer pin 62b, so that guide plate 63b sliding opposite with spacer pin 62b, i.e. spacer pin 62b opposite sliding in guide groove 64.

As illustrated in figs. 8-9, rotating mechanism 7 is for driving display terminal 1 to rotate, in order to realize that rotating mechanism 7 drives Display terminal 1 switches between transverse screen or vertical screen, and rotating mechanism 7 is adapted to be mounted to car body, and the output end of rotating mechanism 7 and Two sliding parts 32 are connected, and the output end of rotating mechanism 7 can drive the second sliding part 32 to rotate, i.e. the driving force of output shaft output can The second sliding part 32 is driven to rotate, while the second sliding part 32 is connected with the first sliding part 31, thus the first sliding part 31 and shows Show that terminal 1 rotates simultaneously with the second sliding part 32, and then realizes that the rotation of display terminal 1 is adjusted.

As shown in Figure 13-Figure 15, rotating mechanism 7 is for driving the second sliding part 32 to turn to target position from initial position Set, for the second sliding part 32 in initial position, spacer pin 62b is located at one end of guide groove 64, the second sliding part at target position, Spacer pin is located at the other end of guide groove 64, for example, target position is that display is whole when initial position is that display terminal 1 is in transverse screen When end 1 is in vertical screen, i.e., during display terminal 1 and guide plate 63b are rotated, spacer pin 62b in guide groove 64 with guiding Plate 63b is opposite to be slided, and display terminal 1 and the opposite sliding of the second sliding part 32, the position for being easy to implement display terminal 1 is adjusted.

Executing agency 100 is arranged to when rotating mechanism 7 works, and sliding equipment 3 rotates, and guide groove 64 and spacer pin 62b Relative motion, spacer pin 62b is in guide groove 64, and spacer pin 62b and guide plate 63b is relatively rotated, and spacer pin 62b is in guide groove 64 Interior sliding opposite with guide plate 63b, in other words, rotating mechanism 7 can be driven indirectly by the cooperation of spacer pin 62b and guide plate 63b Dynamic second sliding part 32 and the rotation of the first sliding part 31, during the second sliding part 32 and the first sliding part 31 rotate, such as Shown in Fig. 9, spacer pin 62b is located in guide groove 64, guide plate 63b and the first sliding part 31 rotate synchronously, and guide plate 63b is led 64 inner wall of slot applies active force to spacer pin 62b, it is to be understood that spacer pin 62b and car body are relatively fixed, i.e. spacer pin The position of 62b and state are constant always, exist when guide plate 63b is rotated as a result, between guide plate 63b and spacer pin 62b mutual Active force, guide plate 63b and the first sliding part 31 are opposing stationary, and spacer pin 62b is oriented to the effect power drive of guide plate 63b Plate 63b and the first sliding part 31 and the opposite sliding of the second sliding part 32, realize that the position of display terminal 1 is adjusted.

In this motion process, the second sliding part 32 is driven by rotating mechanism 7 with the first sliding part 31, display terminal 1 Rotation, the rotation center of the second sliding part 32 is constant always, and geometric center is only rotated around rotation center, but the first sliding part 31 Geometric center in addition to outer around rotation center rotation, it is several with respect to during sliding with the second sliding part 32 in the first sliding part 31 What center also translates, and realizes that compound motion, i.e. display terminal 1 and the geometric center of the first sliding part 31 move, And then realize the change center rotation of display terminal 1, i.e., the geometric center of display terminal 1 is not fixed, the meeting in rotary course Variation, the integral structure layout of executing agency 100 is reasonable, functional, has good practicability.

As shown in fig. 6, the axis of the output end of rotating mechanism 7 is spaced apart with the geometric center of display terminal 1, i.e. whirler Structure 7 is relative to 1 setoff installation of display terminal.As shown in Figure 13-Figure 15, rotating mechanism 7 is for driving display terminal 1 from initial bit It sets and turns to target position, in initial position, the axis of the output end of rotating mechanism 7 is located at the geometric center of display terminal 1 First direction, the axis of spacer pin 62 is located at the second direction of the axis of the output end of rotating mechanism 7, first direction and second Direction is vertical, for example, first direction is that from top to bottom, second direction is that from left to right or from right to left, and display terminal 1 is arranged It is rotated in the opposite direction with second party to turn to target position for court.

Wherein, the rotation center of display terminal 1 is located on the axis of the output end of rotating mechanism 7, the rotation of display terminal 1 Center is located at the first direction of the geometric center of display terminal 1, as a result, rotation of the geometric center of display terminal 1 around display terminal 1 Turn center towards rotating in the opposite direction with second party, i.e. the position of the geometric center of display terminal 1 gradually changes, herein mistake Cheng Zhong, guide plate 63 and 62 relative motion of spacer pin, spacer pin 62 move to the other end, and spacer pin 62 from one end of guide groove 64 It is relatively rotated in guide groove 64 with guide plate 63,31 phase of the first sliding part of interaction power drive of guide plate 63 and spacer pin 62 For the opposite sliding of the second sliding part 32, display terminal 1 can be realized from there through the cooperative movement of guide plate 63 and spacer pin 62 Transverse screen and vertical screen switching, while the geometric center change in location of display terminal 1 realizes the change center rotation of display terminal 1.

In one embodiment, when 1 vertical screen of display terminal, the axis of the output end of rotating mechanism 7 is located at display terminal 1 The lower section of geometric center, the rotation center of display terminal 1 are located at the lower section of the geometric center of display terminal 1, the axis of spacer pin 62 Line is located at the right of the axis of the output end of rotating mechanism 7, and display terminal 1 is set as bearing left and move to realize transverse screen.

As shown in figure 13, in initial position, spacer pin 62 is located at the right end of guide groove 64, and the extending direction of guide groove 64 with Second direction is identical, during display terminal 1 is moved from initial position to target position, the geometric center of display terminal 1 around The axis of the output end of rotating mechanism 7 moves downward, meanwhile, the one end of guide plate 63 far from spacer pin 62 is around spacer pin 62 towards The movement of one direction, spacer pin 62 is in guide groove 64 from one end of guide groove 64 gradually to another end motion, the extension side of guide groove 64 It is become larger to the angle with second direction, the extending direction of guide groove 64 and the angle of first direction gradually become smaller, for example, display When middle position of the terminal 1 between initial position and target position, the extending direction of guide groove 64 and the angle of second direction and The extending direction of guide groove 64 and the angle of first direction are identical, executing agency 100 it is reasonable in design, in order to display terminal 1 further rotates, and realizes the switching of transverse screen and vertical screen.

And when display terminal 1 moves to target position, as shown in figure 15, spacer pin 62 is located at the other end of guide groove 64, Spacer pin 62 is located at the lower end of guide groove 64, and the extending direction of guide groove 64 is identical as first direction, wherein in the geometry of guide plate 63 The spacing of the heart and the axis of the output end of rotating mechanism 7 becomes larger, and geometric center moves right guide plate 63 in the process of movement, Display terminal 1 is moved synchronously with guide plate 63, as a result, display terminal 1 in the course of rotation, the geometric center of display terminal 1 It moves down, the geometric center of display terminal 1 and the spacing of the axis of the output end of rotating mechanism 7 gradually become smaller, and some In embodiment, the geometric center of display terminal 1 is located on the axis of the output end of rotating mechanism 7, and display terminal 1 switches to cross Screen, in this way, display terminal 1 realizes the switching of vertical screen to transverse screen, and during rotation, the position of the geometric center of display terminal 1 It sets and gradually changes, i.e., display terminal 1, which is realized, becomes center rotating.

It is understood that since rotating mechanism 7 is relative to 1 setoff installation of display terminal, in the torsion that rotating mechanism 7 exports The geometric center that square will lead to display terminal 1 shifts, and by setting guide plate 63 and spacer pin 62, so that display terminal 1 translates on the basis of rotation, and the offset of the geometric center of display terminal 1 caused by rotating mechanism 7 is drawn with spacer pin 62 The translation direction of the geometric center of the display terminal 1 risen is just on the contrary, hereby it is achieved that rotating mechanism 7 is in initial position and mesh When cursor position, the geometric center of display terminal 1 is concordant in the vertical direction with the axis of 7 output end of rotating mechanism.

In one embodiment, as shown in fig. 7, display terminal 1 is concordant with lower edge when target position in initial position, In this way, the lower part of display terminal 1 does not interfere the arrangement and installation of other component when display terminal 1 is in transverse screen or vertical screen, The position for reducing display terminal 1 adjusts the space occupied, convenient for interior integrally-built design, improves setting for executing agency 100 The reasonability of meter.

According to the utility model embodiment for adjusting the executing agency 100 of display terminal 1, driven by rotating mechanism 7 Dynamic display terminal 1, the first sliding part 31 and the second sliding part 32 are rotated relative to car body, and in display terminal 1, the first sliding part 31 and second sliding part 32 rotate during, spacer pin 62b presses on 64 inner wall of guide groove of guide plate 63b, guide plate always Interaction force between 63b and spacer pin 62b can drive the first sliding part 31 and the opposite sliding of the second sliding part 32, as a result, The switching of the transverse screen and vertical screen of display terminal 1 can be achieved, and during display terminal 1 rotates, the first sliding part 31 and aobvious Show that the geometric center of terminal 1 gradually changes, display terminal 1 realizes the rotation of change center, and display terminal 1 is adjusted to needed for occupant Position improve the practicability of display terminal 1 convenient for meeting the use demand of different occupants.

According to the utility model embodiment for adjusting the executing agency 100 of display terminal 1, as illustrated in figs. 8-9, limit The axis parallel interval of the axis and the output shaft of rotating mechanism 7 of position pin 62b is opened, i.e. the axis of spacer pin 62b and rotating mechanism 7 The axis of output end be not overlapped, the rotation center of the second sliding part 32 is located on the axis of the output end of rotating mechanism 7, by This, the relative motion of spacer pin 62b and guide plate 63b, so that the geometric center of the first sliding part 31 turns with guide plate 63b It moves and gradually changes, drive force the first sliding part 31, the second sliding part 32 and the display terminal exported convenient for rotating mechanism 7 1 rotation, reduces the power consumption of rotating mechanism 7, and display terminal 1 realizes the rotation of change center.

As illustrated in figs. 8-9, executing agency 100 further includes fixing axle 5 and driving lever 65.

Fixing axle 5 is relative to car body fixing assembling, and the axis weight of the output end of the axis of fixing axle 5 and rotating mechanism 7 It closes, spacer pin 62b is fixedly connected with fixing axle 5, in this way, spacer pin 62b, fixing axle 5 are connected as one with car body, so that limit It is relatively fixed with car body to sell 62b, fixing axle 5, each components of executing agency 100 are easily installed, in the first sliding part 31, when the second sliding part 32 and display terminal 1 rotate, spacer pin 62b is capable of the active force of steadily support guide plate 63b, just In driving the first sliding part 31 and the opposite sliding of the second sliding part 32, realizes the rotation of display terminal 1, pass through fixing axle 5 as a result, Spacer pin 62b is stably fixed to car body, is easy to implement the opposite sliding of the first sliding part 31 and the second sliding part 32, in turn The change center rotating for realizing display terminal 1 is conducive to the practicability for improving executing agency 100.

The axis of fixing axle 5 is overlapped with the axis of the output end of rotating mechanism 7, reduces installation procedure, is convenient for spacer pin 62b With the installation of rotating mechanism 7, reduce the power consumption in 7 transmission process of rotating mechanism, improve rotating mechanism 7 and the second sliding part 32 it Between transmission efficiency, realize display terminal change center rotation, fixing axle 5 and the output shaft of rotating mechanism 7 are coaxially set, have Conducive to the integral arrangement of executing agency 100, so that all parts install compact of executing agency 100, reduces executing agency 100 the space occupied.

Driving lever 65 is fixedly connected with fixing axle 5, and spacer pin 62b is connected with driving lever 65, and fixation is fixed in one end of driving lever 65 Axis 5, the other end of driving lever 65 are equipped with spacer pin 62b, wherein fixing axle 5 is arranged in parallel with spacer pin 62b, and driving lever 65 with Fixing axle 5, spacer pin 62b are vertically arranged, and the axis of spacer pin 62b and the axis parallel interval of rotating mechanism 7 are opened as a result, with It is spaced apart the geometric center of the first sliding part 31 and the rotation center of the second sliding part 32, convenient for other of executing agency 100 The installation and fixation of component, are easy to implement the opposite sliding of the first sliding part 31 and the second sliding part 32, and then realize display eventually The on-fixed center rotating at end 1 is conducive to the practicability for improving executing agency 100.

As shown in Fig. 9-Figure 10, executing agency 100 further includes axial limiting part 54, and fixing axle 5 includes the light being sequentially connected One end of rod segment 51, circumferential limit section 52 and axial limiting section 53, i.e., circumferential limit section 52 is connected with light bar segment 51, circumferential to limit The other end of section 52 is connected with axial limiting section 53, and light bar segment 51 is relative to car body fixing assembling, for example, light bar segment 51 is away from week Ring flange 55 is axially arranged with to the end of limit section 52, and ring flange 55 is equipped with multiple threaded holes, and ring flange 55 can be logical with car body Cross that threaded fastener is connected or ring flange 55 is connected with other component and is fixed on car body jointly, convenient for by the whole fixation of fixing axle 5 Car body is fixed on by fixing axle 5 in car body, and then by spacer pin 62b, so that the installation of executing agency 100 is more stable.

As shown in figure 9, driving lever 65 is sheathed on circumferential limit section 52, the circumferential section 52 that limits can carry out circumferential limit to driving lever 65 Position, i.e. driving lever 65 and fixing axle 5 are without relative rotation, and the side of driving lever 65 compresses the end face of light bar segment 51, axial limiting part 54 It is connected with axial limiting section 53, and axial limiting part 54 compresses another side of driving lever 65, in this way, two sides of driving lever 65 point Light bar segment 51, axial limiting part 54 are not pressed on, wherein axial limiting part 54 and axial limiting section 53 cooperate, and then by driving lever 65 are stably fixed to circumferentially limit section 52, so that driving lever 65 and fixing axle 5 are dialled along axial, circumferentially opposed fixation convenient for passing through Bar 65 realizes the opposite sliding of the first sliding part 31 and the second sliding part 32, guarantees 100 stable structure of executing agency.

Wherein, as shown in Figure 10, circumferential limit section 52 has polygonal crosssection, i.e., the periphery wall of circumferential limit section 52 can For polygon prism or more terrace with edges, as shown in figure 12, driving lever 65 includes connecting plate 66, extension board 67, and connecting plate 66 can be with extension board 67 It is integrally formed, it is easy to process, it is easily assembled, connecting plate 66 is connected with fixing axle 5, and extension board 67 is connected with connecting plate 66, and limits Position pin 62b is connected with extension board 67 away from one end of connecting plate 66, i.e. spacer pin 62b is set to extension board 67 away from fixing axle 5 Side, spacer pin 62b and fixing axle 5 is relatively fixed.

As shown in Figure 13-Figure 15, when display terminal 1 is in initial position, the length direction of driving lever 65 is with guide plate 63b's Length direction is parallel, when display terminal 1 is in the middle position between initial position and target position, the length side of driving lever 65 Angle to the length direction with guide plate 63b is 45 °, when display terminal 1 is in target position, the length direction of driving lever 65 with The length direction of guide plate 63b is vertical, is easy to implement the switching of the transverse screen and vertical screen of display terminal 1.

Connecting plate 66 have mounting hole 61, mounting hole 61 along axially through, and mounting hole 61 have polygonal crosssection, peace Dress hole 61 is sheathed on circumferential limit section 52, and mounting hole 61 is suitable for cooperating with circumferential limit section 52 so that driving lever 65 and 5 edge of fixing axle Circumferentially opposed fixation, it should be noted that as shown in Figure 10, light bar segment 51, circumferential limit section 52 and axial limiting section 53 it is straight Diameter is sequentially reduced, i.e., the diameter of circumferential limit section 52 is less than light bar segment 51, and the diameter of axial limiting section 53 is less than circumferential limit section 52, and the diameter of mounting hole 61 is greater than axial limiting section 53, the diameter of mounting hole 61 is less than light bar segment 51, in this way, driving lever 65 from Axial limiting section 53 penetrates, and then is installed on circumferential limit section 52, and axial limiting part 54 deviates from circumferentially from axial limiting section 53 The one end for limiting section 52 is packed into, and then driving lever 65 is fixed between axial limiting section 53 and light bar segment 51, realizes 65 ground of driving lever It is fixed, it is easily installed, dismantles.

As shown in Figure 10, axial limiting section 53 be external thread section, axial limiting part 54 include nut, as a result, driving lever 65 from After axial limiting section 53 is packed into, nut is screwed into loading away from one end of circumferential limit section 52 from axial limiting section 53, nut can Driving lever 65 and fixing axle 5 are axially fixed, prevents driving lever 65 from deviating from from circumferential limit section 52, avoids driving lever 65 and fixing axle 5 The effect that engages for influencing driving lever 65 and guide plate 63b is relatively rotated, and then guarantees the stability and safety of executing agency 100, It is easy to implement the opposite sliding of display terminal 1 and the first sliding part 31.

Rotating mechanism 7 has the first avoid holes, and the first avoid holes penetrate through the first avoid holes along axially through, fixing axle 5, by This, is installed on fixing axle 5 for rotating mechanism 7, and then be installed on car body, so that rotating mechanism 7 and the connection of fixing axle 5 more step up It gathers, saves installation space, convenient for the integral layout of executing agency 100, reduce the whole occupied space of executing agency 100, promoted The overall performance of executing agency 100.

It is equipped with bearing (not shown) between fixing axle 5 and rotating mechanism 7, i.e., rotating mechanism 7 can be by bearing and solid Dead axle 5 is opposite to be slided, wherein the inner wall of 7 first avoid holes of rotating mechanism is fixedly connected with the outer ring of bearing, outside fixing axle 5 Peripheral wall is fixedly connected with the inner ring of bearing, for example, the periphery wall of light bar segment 51 is fixedly connected with the inner ring of bearing, bearing as a result, Inner ring and outer ring when relatively rotating, rotating mechanism 7 and fixing axle 5 relatively rotate, in this way, rotating mechanism 7 is passed through bearing peace It loaded on fixing axle 5, is easy to implement rotating mechanism 7 and display terminal 1 is driven to rotate, while being easy to implement the first sliding part 31 and display The opposite sliding of terminal 1, the integral layout of executing agency 100 is reasonable, and rotating mechanism 7, fixing axle 5 and the installation of other components are tight It gathers, greatlys improve the space utilization rate of executing agency 100, the friction for reducing rotating mechanism 7 and the relative rotation of fixing axle 5 is damaged It loses, reduces frictional heat generation.

In one embodiment, fixing axle 5 is hollow shaft, i.e. fixing axle 5 has through-hole circumferentially, display terminal 1 route can be passed through from the through-hole of fixing axle 5, be convenient for cabling, the requirement of more applicable whole structure spaces compact, vehicle freight weight limit, The better riding experience of user can also be given simultaneously.

As illustrated in figs. 8-9, also according to the executing agency 100 for adjusting display terminal 1 of the utility model embodiment It include: first support 2, second support 4, third bracket 8.

First support 2 is for installing display terminal 1, and as illustrated in figs. 8-9, first support 2 is tabular, first support 2 It is bonded and is connected with display terminal 1 away from the side of the first sliding part 31, have when first support 2 is installed with display terminal 1 as a result, Biggish contact surface improves the stability that display terminal 1 is installed, and the first sliding part 31 is connected with first support 2, the first sliding part 31 can be connected with first support 2 by threaded fastener, for example, the first sliding part 31 is equipped with threaded hole with first support 2, it can Bolt is passed through into threaded hole so that the first sliding part 31 is connected with first support 2, and guide plate 63b is connected with first support 2, leads It can be connected to plate 63b with first support 2 by threaded fastener, for example guide plate 63b is equipped with the screw thread being connected with first support 2 Hole, it is relatively fixed convenient for guide plate 63b and first support 2.

In this way, guide plate 63b and the first sliding part 31 are stably fixed to first support 2, and display terminal 1 and first Bracket 2 is relatively fixed, when so that rotating mechanism 7 driving the first sliding part 31, the rotation of the second sliding part 32, first support 2, display Terminal 1 is rotated synchronously with the first sliding part 31, stablizes thereby it is ensured that installing between all parts of executing agency 100, is fixed Rationally, integral structure layout is orderly, and the position for being easy to implement display terminal 1 is adjusted, and completes the transverse screen and vertical screen of display terminal 1 Switching improves practicability.

As illustrated in figs. 8-9, second support 4 is tabular, and second support 4 is connected with the second sliding part 32, such as second Bracket 4 is connected with the second sliding part 32 by threaded fastener, so that second support 4 can be moved synchronously with the second sliding part 32, The output end of rotating mechanism 7 is connected with second support 4, for example the output end and second support 4 of rotating mechanism 7 pass through screw threads for fastening Part is connected, and the drive force second support 4 for being convenient for rotating mechanism 7 to export as a result, rotates, and then realizes first support 2 and show Show that the rotation of terminal 1 is adjusted, completes the switching of the transverse screen and vertical screen of display terminal 1.

Wherein, as illustrated in figs. 8-9, second support 4 have the second avoid holes 41, the second avoid holes 41 along axially through, As shown in figure 9, fixing axle 5 sequentially penetrates through the first avoid holes, the second avoid holes 41, and fixing axle 5 runs through the first avoid holes, second After avoid holes 41, fixing axle 5 is fixedly linked close to the end of display terminal 1 and driving lever 65, in this way, installation or removal is facilitated to execute Mechanism 100 dramatically saves executing agency 100 so that runing rest, second support 4 are installed more compact with fixing axle 5 Installation space, reduce executing agency 100 whole occupied space, promoted executing agency 100 practicability, be convenient for executing agency 100 installations and layout.

Third bracket 8 is the fixation bracket of executing agency 100, and rotating mechanism 7 is installed on third bracket 8, and third bracket 8 For being fixedly connected with the vehicle body, first support 2, second support 4 and the display terminal 1 of executing agency 100 pass through third bracket 8 It is fixed on car body, as illustrated in figs. 8-9, third bracket 8 is tabular, and fixing axle 5 is installed on third bracket 8, wherein light bar segment 51 ring flange 55 is bonded with third bracket 8 to be connected, so that rotating mechanism 7 obtains steadily the driving effect of display terminal 1 Support guarantees that rotating mechanism 7 can accurately and effectively drive display terminal 1 to rotate, improves the integrally-built of executing agency 100 Reasonability.

In some embodiments, the extending direction of guide groove 64 and the glide direction of sliding equipment are vertical, the extension of guide groove 64 Direction is vertical with the first sliding part 31, the second sliding part 32, when the first sliding part 31 and the second sliding part 32 slide relatively, guiding Plate 63b is synchronous with the first sliding part 31, moves in the same direction, convenient for the installation of guide plate 63b and sliding equipment 3, the fortune of guide plate 63b The dynamic movement with the first sliding part 31 does not interfere, so that the opposite sliding of display terminal 1 and the second sliding part 32 is easy to real Existing, the motion structure of executing agency 100 is more reasonable.Certainly, the glide direction of the extending direction of guide groove 64 and sliding equipment Can be parallel or it be arranged to other angles.

As illustrated in figs. 8-9, sliding equipment 3 includes that parallel interval opens up and sets multiple, and multiple sliding equipments 3 can be steadily The opposite sliding for supporting first support 2 and second support 4 guarantees the stability of first support 2 and the opposite sliding of second support 4, And the two sides of guide plate 63b are equipped with sliding equipment 3, i.e., multiple sliding equipments 3 are respectively arranged on the two sides of guide plate 63b, for example, Sliding equipment 3 includes two, and two sliding equipments 3 are distributed in the two sides of guide plate 63b respectively, in this way, being both convenient for sliding equipment 3, the integral layout of guide plate 63b ensures that first support 2 and second support 4 steadily opposite can be slided, so that executing The structure design of mechanism 100 is more rationally, reliably.

The executing agency 100 of any of the above-described kind of embodiment includes rotating mechanism 7, and rotating mechanism 7 is for driving display terminal 1 Rotation, in order to realize that rotating mechanism 7 drives display terminal 1 to switch between transverse screen and vertical screen, rotating mechanism 7 is adapted to be mounted to Car body, and the output end of rotating mechanism 7 is connected with second support 4, the output end of rotating mechanism 7 can drive second support 4 to rotate, That is the driving force of output shaft output can drive second support 4 to rotate, and second support 4 drives first support 2 and 1 turn of display terminal It is dynamic, realize that the rotation of display terminal 1 is adjusted.

As shown in figure 4, rotating mechanism 7 includes rotating disc 71, clutch unit 72, driving unit 75, installation axle 78.

As shown in figure 4, rotating disc 71 is connected with second support 4, the first joint portion 73 of clutch unit 72 and rotating disc 71 Connection, the second joint portion 74 and the first joint portion 73 of clutch unit 72 are often mutually locked, and the first joint portion 73 is engaged with second Portion 74 engages and has multiple bonding stations, and rotating disc 71 is configured to be turned manually to drive the first joint portion 73 opposite Rotationally switch between multiple bonding stations in the second joint portion 74, the output end of driving unit 75 and the second joint portion 74 Connection.

As shown in figure 4, rotating disc 71 is connect with 73 power coupling of the first joint portion, rotating disc 71 and the first joint portion 73 are logical It crosses spline to be connected, for example rotating disc 71 is equipped with internal spline away from the end face of display terminal 1, the first joint portion 73 deviates from the second knot The end face in conjunction portion is equipped with external splines.

Certainly, rotating disc 71 can also be integrally formed with the first joint portion 73, can reduce zero for needing to assemble in this way Number of packages mesh reduces assembly process.

As shown in figure 4, rotating disc 71 can be disc, and the centre of rotating disc 71 is equipped with circular through hole, i.e. rotating disc 71 be annular, and installation axle 78 extends in the axial direction from the inner edge of rotating disc 71.Rotating disc 71 is connected with installation axle 78, installation axle 78 It can be formed as one with rotating disc 71.Certainly, installation axle 78 can be split type with rotating disc 71, and pass through clamping structure phase Even.

As shown in figure 4, installation axle 78 penetrates through clutch unit 72, driving unit 75, installation axle 78 is used for all parts string Integral, installation axle 78 does not transmit power, and when rotating disc 71 rotates, installation axle 78 can not be rotated.Installation axle 78 can be Hollow shaft, fixing axle can run through installation axle, rotating mechanism 7 is installed on fixing axle, to mitigate weight, be convenient for cabling.Clutch Unit 72 is located at except the shell of driving unit 75.

As shown in figure 4, clutch unit 72 can transmit torque when the second joint portion 74 is engaged with the first joint portion 73, the Two joint portions 74 and the first joint portion 73 have multiple bonding stations, for example, the first joint portion 73 and the second joint portion 74 are opposite Multiple bonding stations are formed on the end face of setting.The output end of driving unit 75 is connect with 74 power coupling of the second joint portion, from Unit 72 is closed to be located at outside the shell of driving unit 75.

As shown in figure 4, clutch unit 72 includes end face the first joint portion 73 and the second joint portion 74 that are oppositely arranged, As shown in figure 4, and one in two end faces of the first joint portion 73 and the second joint portion 74 toward each other there are multiple lockings Slot, another have at least one locking protrusion, executing agency 100 can also include for providing the component of axial pre tightening force, Each locking protrusion is suitable for being engaged under the action of axial pre tightening force at least two lock grooves so that the second joint portion 74 and the One joint portion 73 is adapted at least to be distributed in the circumferential two bonding station engagements, when changing bonding station, the second joint portion 74 keep opposing stationary with driving unit 75 in the axial direction, and the first joint portion 73 is in the axial direction towards the side for deviating from the second joint portion 74 To movement, the first joint portion 73 is connect with rotating disk, and the output end of driving unit 75 is connect with the second joint portion 74.

When changing bonding station, the second joint portion 74 keeps opposing stationary with driving unit 75 in the axial direction, and first connects Conjunction portion 73 is moved towards the direction away from the second joint portion 74 in the axial direction.Thus, it is possible to prevent the inside zero of driving unit 75 Part shakes, and the driving and transmission of such driving unit 75 are more stable.

Driving unit 75 can be electric drive formula, hydraulic drive type, pneumatic type etc..

Clutch unit 72 can be located at except the shell of driving unit 75, in this way, being not easy to when assembling clutch unit 72 Interfere with each components of driving unit 75, and need not individually design the peace of clutch unit 72 in the shell of driving unit 75 Space is filled, can simplify design.Further, since the first joint portion 73 of clutch unit 72 and the second joint portion 74 are manual It can relatively rotate in mode, if a part of clutch unit 72 is located in the shell of driving unit 75, in executing agency The problems such as stuck may occur in 100 operational process.

Clutch unit 72 is at least partially disposed within rotating disk.Such as the first joint portion 73 as described in above-described embodiment or Second joint portion 74 is at least partially disposed in rotating disc 71, and it is long that the whole axial direction of executing agency 100 can be significantly reduced in this way Degree arranges that more compact reasonable and connection is closer.

First joint portion 73 and the second joint portion 74 are often mutually locked, and rotating disk is configured to be turned manually to drive First joint portion 73 rotationally switches between multiple bonding stations relative to the second joint portion 74.

When driving unit 75 works, the second joint portion 74 is engaged with the first joint portion 73, it is to be understood that in normality Lower first joint portion 73, the second joint portion 74 are interconnected under the action of axial pre tightening force, can transmit torque, driving force edge The second joint portion driving unit 75- the first joint portion 74- 73- rotating disc 71- second support 4- display terminal 1 transmits, to make Display terminal 1 rotates, and realizes the rotation or horizontal/vertical screen switching of display terminal 1.

First joint portion 73, the second joint portion 74 form circumferential stiction, this week under the action of axial pre tightening force To stiction formed the first joint portion 73, the second joint portion 74 relatively rotate opening force.When the first joint portion 73 by Torque be greater than the opening force when, the first joint portion 73, the second joint portion 74 relatively rotate to change bonding station；It connects when first When the torque that conjunction portion 73 is subject to is less than the opening force, the first joint portion 73, the second joint portion 74 keep being interconnected to transmit and turn round Square.

Specifically, in 100 course of work of executing agency, driving unit 75 do not work and the first joint portion 73 is subject to When torque is greater than above-mentioned opening force, the second joint portion 74 and the first joint portion 73 are relatively rotated to change bonding station.

For example apply the torque for rotating it to display terminal 1 manually, which passes to the first engagement by rotating disk Portion 73, due to being locked up when driving unit 75 does not work, driving unit 75 is fixedly connected with the second joint portion 74, when above-mentioned torque When no more than above-mentioned opening force, the first joint portion 73 is remained engaged with the second joint portion 74, and display terminal 1 does not rotate；When above-mentioned When torque is greater than above-mentioned opening force, the first joint portion 73 relatively rotates with the second joint portion 74, from previous bonding station Another bonding station is turned to, when the first joint portion 73 turns to from first bonding station relative to the second joint portion 74 When two bonding stations, the manual rotation of display terminal 1 can be realized.

It, will by clutch unit 72 according to the utility model embodiment for adjusting the executing agency 100 of display terminal 1 Rotation display terminal 1 and automatic rotation display terminal 1 are coupled as an entirety manually, and two kinds of tangent screen modes are non-interference.

In some embodiments, driving unit 75 includes: power source 75a and retarder 75b, the output shaft of power source 75a It is connected with the input terminal of retarder 75b, the output end of retarder 75b is connected with display terminal 1 or the output of retarder 75b End is connected with the second joint portion 74, and drives display terminal 1 by the second joint portion 74, the first joint portion 73.

Power source 75a can be motor, oil pump, air pump etc., for example, power source 75a is driving motor, retarder 75b can Think that gear reduction unit, V belt translation slow down, retarder 75b may be worm- gear drive mechanism etc..Retarder 75b can be Primary speed-down mechanism, or more step reduction mechanism.

Driving unit 75 for driving display terminal to move, comprising: power source 75a and retarder 75b, retarder 75b Including active worm screw and driven spur gear, active worm screw is connected with the output shaft of power source 75a, driven spur gear and active worm screw Engagement.

Using worm screw spur gear deceleration mechanism, the mechanism is compact, small in size, light-weight, and stable drive, noise are low, whole A deceleration mechanism flexible layout, is convenient for cabling, the requirement of more applicable whole structure spaces compact, vehicle freight weight limit, while can also be with Give user better riding experience.

The active worm screw of the output shaft of power source 75a and retarder 75b can be detachably connected by connector, actively Worm screw may be pivotally mounted to the shell of driving unit 75, and shell of the active worm screw in the axial direction of itself with driving unit 75 Location fit, in other words, active worm screw can not relatively move in the axial direction relative to the shell of driving unit 75 (not to be considered to assemble Gap).

It is understood that power source 75a exports revolving speed to active worm screw by connector, in power source 75a damage, Only power source 75a need to be dismantled by connector tearing open since active worm screw is axially positioned in the shell of driving unit 75 When unloading power source 75a, engaging for active worm screw and gear in retarder 75b is not influenced, and power source 75a and retarder 75b can To install fixation respectively, influence of the vibration of power source 75a to the components in retarder 75b can be weakened, active snail is prevented Bar is swung.

According to the driving unit 75 for driving vehicle-mounted display terminal to move of the utility model embodiment, joined by setting Device is connect, the Meshing stability of components in retarder 75b can be improved, improves the service life of driving unit 75, and can individually be examined Repair engagement situation of the power source 75a without will affect gear on worm.

The shell of driving unit 75 is equipped with axial limiting supporting structure, and active worm screw is supported on axial limiting supporting structure, And the end face of the shaft shoulder of active worm screw and axial limiting supporting structure is oppositely arranged to realize axially position.

The shell of driving unit 75 includes: body 77a, front cover, rear chassis 77c.

Body 77a limits the first chamber and the second chamber, and the first chamber and the second chamber are separated by partition, power source 75a installation In the first chamber, active worm screw is installed on the second chamber, and partition is equipped with avoid holes, and active worm screw from avoid holes protrude into the first chamber and with The output shaft of power source 75a is detachably connected, and partition can be equipped with axial limiting supporting structure at avoid holes, and partition is used for Two installation cavitys are distinguished, and axial limiting can be realized to active snail, prevent from causing active worm screw to shake when disassembly power source 75a It is dynamic.First chamber deviates from the open at one end of the second chamber, and rear chassis 77c is connected with body 77a, to close the open end of the first chamber, Front cover is connected with body 77a, and to close the open end of the second chamber, connector is installed on the first chamber, and front cover is equipped with axis Set, active worm screw is supported in axle sleeve, and the shaft shoulder of active worm screw and the end face of axle sleeve are oppositely arranged, and are easily installed, are dismantled.

The angle of the axis of the axis of active worm screw and driven spur gear is acute angle.The axis of active worm screw and driven straight-tooth The angle of the axis of wheel is that acute angle is α, is met: 82 °≤α≤88 °.Further, 84 °≤α≤86 °, such as α=85 °, α's Size is determined according to the helix angle of active worm screw.

That is, active worm screw and driven spur gear are not arranged vertically, can guarantee in this way active worm screw with it is driven The meshing state of spur gear is good, and transmission efficiency is higher.Spur gear it is easy to process, Worm Wheel System in the related technology is changed Into for worm gear Spur Gear Driving, to avoid encountering the problem of spiral case making performance difference.

In some embodiments, retarder 75b be primary transmission mechanism, and retarder 75b include: level-one active worm screw and The driven spur gear of level-one, the output axis connection of level-one active worm screw and power source 75a, the output shaft of power source 75a and level-one master Dynamic worm screw can be fixedly connected or the output shaft of power source 75a is detachably connected with level-one active worm screw by connector. Level-one active worm screw engages with the driven spur gear of level-one, and the axis of the axis of level-one active worm screw and the driven spur gear of level-one Angle is acute angle.The axis L2 of the axis L1 of level-one active worm screw and the driven spur gear of level-one are projected to and put down with this two axis On capable perspective plane, the angle for obtaining the axis of level-one active worm screw and the axis of the driven spur gear of level-one is α, is met: 82 °≤ α≤88°.Further, the size of 84 °≤α≤86 °, such as α=85 °, α is determined according to the helix angle of level-one active worm screw. That is, level-one active worm screw and the driven spur gear of level-one are not arranged vertically, can guarantee in this way level-one active worm screw with The meshing state of the driven spur gear of level-one is good, and transmission efficiency is higher.Spur gear it is easy to process, by worm gear snail in the related technology Bar transmission is improved to worm gear Spur Gear Driving, to avoid encountering the problem of spiral case making performance difference.

In further embodiments, as shown in figure 4, retarder 75b is secondary drive mechanism, retarder 75b includes: level-one The driven spur gear 75d of active worm screw 75c, level-one, second level active worm screw 75e, the driven spur gear 75f of second level.

Wherein, as shown in figure 4, the output shaft of power source 75a is connect with level-one active worm screw 75c, level-one active worm screw 75c It can integrate in outside the output shaft of power source 75a, the output shaft of power source 75a can be fixedly connected with level-one active worm screw, or The output shaft of person's power source 75a is detachably connected with level-one active worm screw by connector.

Level-one active worm screw 75c is engaged with the driven spur gear 75d of level-one, the axis of level-one active worm screw 75c and level-one from The angle of the axis of dynamic spur gear 75d is acute angle, by the axis L1's of the level-one active worm screw 75c and driven spur gear 75d of level-one Axis L2 is projected on the perspective plane parallel with this two axis, and axis and the level-one for obtaining level-one active worm screw 75c are driven straight The angle α of the axis of gear 75d meets: 82 °≤α≤88 °, further, and 84 °≤α≤86 °, for example, α=85 °, the size of α Determined according to the helix angle of level-one active worm screw 75c.That is, the level-one active worm screw 75c and driven spur gear 75d of level-one It is not arranged vertically, can guarantee that level-one active worm screw 75c and the meshing state of the driven spur gear 75d of level-one are good in this way, be driven It is more efficient.Spur gear it is easy to process, Worm Wheel System in the related technology is improved to worm gear Spur Gear Driving, thus Avoid encountering the problem of spiral case making performance difference.

Second level active worm screw 75e and the driven spur gear 75d of level-one are coaxially disposed, and second level active worm screw 75e and level-one are driven The axially spaced setting of spur gear 75d, second level active worm screw 75e can be integrally machined with the driven spur gear 75d of level-one, or The driven spur gear 75d of level-one can be connected by spline with second level active worm screw 75e.

The driven spur gear 75f of second level is engaged with second level active worm screw 75e, and the driven spur gear 75f of second level is used for output driving The driving force of unit 75.The angle of the axis of the axis and driven spur gear 75f of second level of second level active worm screw 75e is acute angle, will The axis L4 of the axis L3 and the driven spur gear 75f of second level of second level active worm screw 75e project to the throwing parallel with this two axis On shadow face, the angle β of the axis of second level active worm screw 75e and the axis of the driven spur gear 75f of second level is obtained, is met: 82 °≤β ≤ 88 °, further, 84 °≤β≤86 °, such as β=85 °, the size of β according to the helix angle of second level active worm screw 75e come It is fixed.That is, the second level active worm screw 75e and driven spur gear 75f of second level is not arranged vertically, it can guarantee second level master in this way Dynamic worm screw 75e and the meshing state of the driven spur gear 75f of second level are good, and transmission efficiency is higher.Spur gear it is easy to process, will be related Worm Wheel System in technology is improved to worm gear Spur Gear Driving, to avoid encountering the problem of spiral case making performance difference.

Axis, axis, the axis of clutch unit of the driven spur gear 75f of second level of level-one active worm screw 75c is parallel.Power The axis of the output shaft of source 75a and the axis of the driven spur gear 75f of second level are parallel and spaced apart.So as to realize power source The arranged direction of 75a is parallel with the outbound course of driving unit 75, is convenient for trim designs.

When power source 75a does not work, using worm screw self-locking function (helix angle of worm screw be less than angle of friction can touch From lock), the clutch function of overall plan may be implemented, that is, when being manually operated, retarder 75b is self-locking, so that the second joint portion 74 are fixed, so that the first joint portion 73 can relatively rotate.

Using worm screw spur gear deceleration mechanism, the mechanism is compact, small in size, light-weight, and stable drive, noise are low, whole A deceleration mechanism flexible layout, is convenient for cabling, the requirement of more applicable whole structure spaces compact, vehicle freight weight limit, while can also be with Give user better riding experience.

As shown in figure 4, the high-speed rotation of level-one active worm screw 75c is passed to second level actively by the driven spur gear 75d of level-one Worm screw 75e, in order to reduce the vibration in transmission process, the driven spur gear 75d of level-one can be plastic parts, level-one active worm screw 75c, Second level active worm screw 75e, the driven spur gear 75f of second level are metalwork.

The driven spur gear 75f of second level is connected with the second joint portion 74, to realize power output, such as the driven straight-tooth of second level Wheel 75f is formed as one with the second joint portion 74, according to the functional requirement of second level driven spur gear 75f and the second joint portion 74, The two can be used different materials and be made, and the driven spur gear 75f of second level is made of wear-resistant material, and the second joint portion 74 is self-lubricating material Material is made, such as polyformaldehyde, molybdenum disulfide, boron nitride etc..

Driving unit 75 can also include: output interface, and output interface is connected with the driven spur gear 75f of second level, and output connects Mouth is used for output driving power, and output interface can be the second joint portion 74 of clutch unit.

Output interface and the driven spur gear 75f of second level are hollow annular.

First joint portion 73, the second joint portion 74 and the driven spur gear 75f of second level are to walk for convenience using hollow shape Line, loss of weight, and torque input end and output end are not that on the same axis, hollow shaft can will be inputted plus transmission system Output shaft is processed into parallel axis direction, is conducive to the space planning of structure, provides bigger design margin.

Level-one active worm screw 75c is fixed on motor shaft, and one end is stretched out the other end by motor and limited by shell mechanism.Level-one from Dynamic spur gear 75d and second level active worm screw 75e is fixed on the same axis, and because space limits, both ends do not use bearing but have The axle sleeve of shoulder, inside there is lubrication.The driven spur gear 75f of second level is also to be limited by shell mechanism, and one end and export structure realize one, The other end has end face loading ability of bearing.Axle sleeve and end face bearing are reduced the friction loss of rotation process, reduce frictional heat generation.

The driven spur gear 75f of second level can be hollow wheel gear, on the one hand can mitigate the weight of entire driving unit 75, separately On the one hand convenient for assembly.

The shell of driving unit 75 includes: body 77a, rear chassis 77c, casing upper cover 77b, front cover.

Power source 75a, level-one active worm screw 75c, the driven straight-tooth of level-one, second level active worm screw 75e wheel are mounted on body 77a, the driven spur gear 75f of second level are installed on casing upper cover 77b, and the driven straight-tooth of level-one and second level active worm screw 75e are fixed on together On one axis, because space limits, both ends do not use bearing but have the axle sleeve of shoulder, inside there is lubrication.

Body 77a is plastic parts, and casing upper cover 77b is metalwork.It is understood that body 77a mainly carry be High speed grade component, setting plastic parts are conducive to damping；What casing upper cover 77b was mainly carried is slow speed turbine stage component and integrally formed Mode is processed.

In other optional embodiments, body 77a and casing upper cover 77b can be integrated.

Rear chassis 77c is connected with body 77a, to close the rear end of body 77a, casing upper cover 77b and body 77a phase Even, front cover is connected with body 77a, to close the front end of body 77a.Rear chassis 77c, casing upper cover 77b, front cover It can be connected by clamping structure and threaded fastener between body 77a.

In the entire system, shell will receive impact loading to driving unit 75, and the second joint portion 74 is rotating When effect by axial normal pressure and circumferential torque, shell can be passed to.So the stabilization in order to guarantee driving unit 75, is removed There is screw between each component, snap connection outer, it is tight that driving unit 75 and pedestal in executing agency 100 are also passed through into screw Gu improving its service life to the intensity for increasing driving unit 75.

The shell of driving unit 75 has axial limiting portion, and the driven spur gear 75f of second level is supported away from the end face of display terminal 1 Last item compresses axial limiting portion away from the end face at the second joint portion 74 to limiting section, the driven spur gear 75f of second level.Specifically, machine Shell upper cover 77b can have the axial limiting portion for the end face limit to the driven spur gear 75f of second level, driven in second level in this way An end face of spur gear 75f is connected with the second joint portion 74, another end face of the driven spur gear 75f of second level and casing upper cover 77b is compressed, and is guaranteed the axially position of the driven spur gear 75f of second level, is prevented the driven spur gear 75f of second level and second level active worm screw 75e beats tooth.

The driven spur gear 75f of second level compresses axial limiting portion by gear face bearing, and gear face bearing can be until Thrust bearing can reduce the frictional force between the driven spur gear 75f of second level and the shell of driving unit 75 in this way, reduce torque damage It loses.In another structure, cyclic annular slot position can be set for assembling gear end face bearing in casing upper cover 77b.

The driven spur gear 75f of second level can be equipped with annular groove away from the end face at the second joint portion 74, and gear face bearing is set In in annular groove, and gear face bearing compresses the bottom wall of annular groove, and at least part in axial limiting portion protrudes into annular groove.Into One step, axial limiting portion can be equipped with zanjon shape, and an end face in axial limiting portion compresses 76 end face bearing of elastomer, axial Another end face of limiting section compresses gear face bearing, and gear face bearing is also in the annular groove of the driven spur gear 75f of second level Interior, at least part of elastomer 76 can be in the annular groove of the driven spur gear 75f of second level.Entire machine can be shortened in this way The axial length of structure, has saved space, so that the applicability of entire mechanism is more extensive.And from the point of view of structural-mechanical point, The rigidity of system is also improved, so that its bending resistance, anti-twisting property are strengthened.

Casing upper cover 77b has sleeve, and the driven spur gear 75f of second level is set in outside sleeve, and axial limiting portion is located at sleeve Outer peripheral surface.

The shell of driving unit 75 has radial holding mechanism, and the second joint portion 74 is rotatably located at radial holding To limit radially in mechanism.Radial holding mechanism is used to limit the radial offset of at least partly rotary part, prevents from executing Radial offset occurs in the process of running for mechanism 100, and such executing agency 100 can still keep stable after longtime running Operation.

In some alternative embodiments, the shell of driving unit 75 remains stationary after being installed on vehicle body, driving unit 75 Shell tool there are two the outer ring and inner ring of empty set setting, radial holding mechanism includes outer ring and inner ring, and outer ring is set in inside and outside Ring, outer ring and inner ring limit annular chamber, and the second joint portion 74 is at least partially disposed in annular chamber, and the second joint portion 74 is extremely Small part is set in outside inner ring, and for inner ring for preventing the second joint portion 74 from biasing to radially inner side, outer ring is set in the second engagement Portion 74 it is at least partly outer, outer ring is for preventing the second joint portion 74 from biasing to radial outside.

In some alternative embodiments, before the shell of driving unit 75 includes: body 77a, casing upper cover 77b and casing Lid, casing upper cover 77b is connected with body 77a, and casing upper cover 77b has an annular sleeve, front cover with before body 77a End is connected, and front cover has the stop collar of annular, and stop collar empty set limits annular chamber, the second joint portion outside sleeve 74 are at least partially disposed in annular chamber.Second joint portion 74 is at least partly set in outside sleeve, and sleeve is for preventing second Joint portion 74 is biased to radially inner side, and stop collar is set in at least partly outer of the second joint portion 74, and stop collar is for preventing the Two joint portions 74 are biased to radial outside.

As shown in figure 4, the output section of driving unit 75 includes the output gear of annular, output gear can be above-mentioned implementation The driven spur gear 75f of second level described in example, output gear are connected with the second joint portion 74, and output gear is set in outside sleeve.The Two joint portions 74 include for 73 locking of the first joint portion engagement disk and with engage disk deviate from the first joint portion 73 one end Connected connector sleeve, connector sleeve are connected with output gear, and stop collar is sheathed on outside connector sleeve.In this way, the radial direction of output gear Interior outside is also limited by sleeve and stop collar respectively, and the output end of driving unit 75 is not easily susceptible to extraneous vibration during the work time Influence, prevent beat tooth.

Radial holding mechanism can also include radial Limit Bearing (not shown), stop collar and the second joint portion 74 It is equipped with radial Limit Bearing between at least partly, for example radial Limit Bearing can be equipped between stop collar and connector sleeve, in this way The inner ring of radial Limit Bearing compresses connector sleeve, and the outer ring of radial Limit Bearing compresses stop collar, the radial direction of radial holding mechanism It limits more firm.

The power of power source 75a output is transferred to rotating disc 71 by retarder 75b as a result, and then rotating disc 71 drives First support 2, second support 4 and display terminal 1 rotate simultaneously, realize the switching of the transverse screen and vertical screen of display terminal 1, adjust Journey is simple, uses convenient for occupant.

In some embodiments, driving motor embeds current limit circuit plate (not shown), is more than setting when detecting After the electric current of threshold value, power down process is carried out to driving motor, for example, in the process of first support 2 and 4 relative motion of second support In, when accompanying other articles between the first support 2 and second support 4 or a certain position of human body is located at first support 2 and second When between bracket 4, driving motor can not effectively drive display terminal 1 to move, and driving motor power-off, this prevents execute machine Structure 100 crushes occupant or damages other articles, and 100 forced rotating of executing agency is avoided to be destroyed, and then improves executing agency 100 Safety, promote the service performance of vehicle, realize the safe anti-pinch and overload protection of executing agency 100.

In some embodiments, display terminal 1 adjust after 90 ° in place or display terminal 1 meet external drag and cause to prevent Gripping finger shows starting, is risen by electric current, is more than that current limliting platelet designs threshold values, executing agency 100 breaks to driving motor Electric treatment is realized, after motor power-off, executing agency 100 can be according to the signal of gyroscope transmitting built in display terminal 1, sentencing Whether disconnected display terminal 1 is in exception bits, if gyroscope transmitted number shows that display terminal 1 is in transverse screen position or vertical screen position Indicate driving motor power-off then to power off in place, on the contrary then determine that display terminal 1 be in exception bits, judgement driving motor, which powers off, is Extremely be hampered power-off, then warning picture occurs, and occupant is reminded to carry out foreign matter investigation, after resistance disappears, then according to occupant's selection Restarting playback.Exception bits judgement includes the manual operation under automatic operating state, and actual exception bits feedback processing can Require definition come design software function according to occupant, so realize display terminal 1 in place and abnormal position control, promote vehicle Service performance.

As shown in figure 5, rotating disc 71 has limited post 711, shell is equipped with the first positive stop lug boss 77d and the second positive stop lug boss 77e, and limited post 711 is only butted on the first positive stop lug boss 77d and the second positive stop lug boss 77e respectively in transverse screen and vertical screen, for example, In this way, limited post 711 is only butted on the first positive stop lug boss 77d when display terminal 1 is in transverse screen, when rotating mechanism 7 drives rotating disc 71 go to 90 °, when display terminal 1 is in vertical screen, the second limit convex of 7 shell of limited post 711 and rotating mechanism of rotating disc 71 Platform 77e limited post only hits point contact, at this point, driving motor stall, electric current increases, and executing agency 100 detects stall signal, shows Show that the gyroscope built in terminal 1 passes out signal in place, executing agency 100 identifies in place, and powers off to driving motor Processing, dynamical system transmitting are interrupted, system locking in place.

The utility model also proposes a kind of display terminal component.

According to the display terminal component of the utility model embodiment, holding including display terminal and any of the above-described kind of embodiment The link position of row mechanism 100, driving mechanism and display terminal 1 is located at the non-center position of display terminal 1, rotating mechanism 7 The axis of output end is spaced apart with the geometric center of display terminal 1, when rotating mechanism 7 drives display terminal 1 to rotate as a result, is shown Show that the geometric center of terminal 1 gradually happens offset, and then realizes the change center rotating of display terminal 1.

According to the display terminal component of the utility model embodiment, display terminal 1 is in initial position and target position Lower edge is concordant, in this way, the lower part of display terminal 1 does not interfere other component when display terminal 1 is in transverse screen or vertical screen Arrangement and installation, the position for reducing display terminal 1 adjust the space occupied, convenient for interior integrally-built design, improve and execute The reasonability of the design of mechanism 100.

The utility model also proposes a kind of vehicle.

According to the vehicle of the utility model embodiment, the display terminal component including display terminal 1 and above-described embodiment is shown Show that terminal 1 is connected with the first sliding part 31 of executing agency 100, to drive the rotation of the first sliding part 31 in rotating mechanism 7 and slide When dynamic, display terminal 1 can be rotated and be slided simultaneously with the first sliding part 31, and the transverse screen and vertical screen for being easy to implement display terminal 1 are cut It changes, realizes the change center rotating of display terminal 1, display terminal 1 is adjusted to occupant desired position convenient for occupant, guarantees occupant With good usage experience, the service performance of vehicle is promoted.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are contained at least one embodiment or example of the utility model.In the present specification, to above-mentioned art The schematic representation of language may not refer to the same embodiment or example.Moreover, description specific features, structure, material or Person's feature can be combined in any suitable manner in any one or more of the embodiments or examples.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that: These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective And modification, the scope of the utility model are defined by the claims and their equivalents.

Claims (23)

1. a kind of for adjusting the executing agency of display terminal characterized by comprising

Power source；

Driving mechanism, the driving mechanism are connected with the power source, and the driving mechanism is connect with display terminal to drive State display terminal eccentric rotary.

2. according to claim 1 for adjusting the executing agency of display terminal, which is characterized in that the display terminal The center center deviation initial with the display terminal during rotation.

3. according to claim 2 for adjusting the executing agency of display terminal, which is characterized in that the driving mechanism packet Rotary shaft is included, the axis of the output end of the rotary shaft is not overlapped with the axis of the input terminal of the rotary shaft.

4. according to claim 2 for adjusting the executing agency of display terminal, which is characterized in that the driving mechanism packet Include: sliding equipment and rotating mechanism, the sliding equipment are connect with the display terminal, and the power source is for passing through the rotation Rotation mechanism drives the display terminal rotation and the sliding equipment links so that the display in display terminal rotation Terminal is mobile.

5. according to claim 4 for adjusting the executing agency of display terminal, which is characterized in that the sliding equipment packet The first sliding part and the second sliding part that can be slided relatively are included, first sliding part is connected with display terminal, the whirler The output end of structure is connected with second sliding part, and drives first sliding part and described in rotating mechanism work Second sliding part is opposite to be slided.

6. according to claim 5 for adjusting the executing agency of display terminal, which is characterized in that further include: guide part And locating part, the guide part and first sliding part are relatively fixed, and the locating part is fixed relative to the rotating mechanism Assembly, the guide part relatively rotate with the locating part and movably cooperate, to drive institute in rotating mechanism work State the first sliding part and the opposite sliding of second sliding part.

7. according to claim 6 for adjusting the executing agency of display terminal, which is characterized in that the executing agency sets It is set in rotating mechanism work, the sliding equipment and guide part rotation, and the locating part is relative to described Guide part rolls, so that first sliding part and the opposite sliding of second sliding part.

8. according to claim 6 for adjusting the executing agency of display terminal, which is characterized in that the executing agency sets It is set in rotating mechanism work, length direction of the guide part relative to the locating part along the guide part moves It is dynamic, and the guide part is rotated around the locating part.

9. according to claim 6 for adjusting the executing agency of display terminal, which is characterized in that the executing agency sets It is set in rotating mechanism work, the center of the guide part is mobile.

10. according to claim 6 for adjusting the executing agency of display terminal, which is characterized in that further include:

First support, the first support for installing display terminal, first sliding part and the guide part with it is described First support is connected；

Second support, the second support are connected with second sliding part, the output end of the rotating mechanism and described second Bracket is connected；

Third bracket, the rotating mechanism is installed on the third bracket, and the third bracket is for being fixedly connected with the vehicle body.

11. according to claim 6 for adjusting the executing agency of display terminal, which is characterized in that further include: it is fixed Axis, the fixing axle are fixedly connected relative to car body fixing assembling, the locating part with the fixing axle.

12. according to claim 11 for adjusting the executing agency of display terminal, which is characterized in that the rotating mechanism With along axially through the first avoid holes, the fixing axle penetrates through first avoid holes.

13. for adjusting the executing agency of display terminal according to any one of claim 6-12, which is characterized in that institute Stating guide part includes rack gear, and the locating part includes gear, and the rack gear is engaged with the gear.

14. according to claim 13 for adjusting the executing agency of display terminal, which is characterized in that the axis of the gear Line is overlapped with the axis of the output end of the rotating mechanism, and the rack gear is parallel with the glide direction of the sliding equipment.

15. according to claim 13 for adjusting the executing agency of display terminal, which is characterized in that further include: it is fixed Axis and axial limiting part, relative to car body fixing assembling, the gear is fixedly connected the fixing axle with the fixing axle, described Fixing axle includes the light bar segment being sequentially connected, circumferential limit section and axial limiting section, and the light bar segment is relative to the fixed dress of car body Match, an end face of the gear is sheathed on the circumferential limit section and compresses the end face of the light bar segment, the axial limiting Part is connected with the axial limiting section and compresses another end face of the gear.

16. for adjusting the executing agency of display terminal according to any one of claim 6-12, which is characterized in that institute Stating guide part includes guide plate, and the guide plate has guide groove, and the locating part includes spacer pin, and the spacer pin is led with described Slot is pivotly slidably matched, and the axis of the spacer pin and the axis parallel interval of the output end of the rotating mechanism are opened.

17. according to claim 16 for adjusting the executing agency of vehicle-mounted display terminal, which is characterized in that the guiding The spacer pin is relative to the guide groove along the extension of the guide groove when plate is around the axis rotation of the output end of the rotating mechanism Direction sliding.

18. according to claim 16 for adjusting the executing agency of display terminal, which is characterized in that the guide groove prolongs It is vertical with the glide direction of the sliding equipment to stretch direction.

19. according to claim 16 for adjusting the executing agency of display terminal, which is characterized in that further include: it is fixed Axis, the fixing axle is relative to car body fixing assembling, and the axis of the output end of the axis of the fixing axle and the rotating mechanism Line is overlapped, and the locating part further includes driving lever, and the driving lever is fixedly connected with the fixing axle, the spacer pin and the driving lever It is connected.

20. a kind of display terminal component, which is characterized in that including display terminal and as described in any one of claim 1-19 Executing agency.

21. display terminal component according to claim 20, which is characterized in that the driving mechanism and the display terminal Link position be located at the non-center position of the display terminal.

22. display terminal component according to claim 20, which is characterized in that the display terminal is in initial position and mesh Lower edge when cursor position is concordant.

23. a kind of vehicle characterized by comprising display terminal and the execution machine as described in any one of claim 1-19 Structure.